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ad6d96ea4f
This adds methods to APFixedPoint for converting to and from floating point values. Differential Revision: https://reviews.llvm.org/D85961
925 lines
38 KiB
C++
925 lines
38 KiB
C++
//===- unittests/ADT/FixedPointTest.cpp -- fixed point number tests -----===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/APFixedPoint.h"
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#include "llvm/ADT/APFloat.h"
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#include "llvm/ADT/APSInt.h"
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#include "gtest/gtest.h"
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using llvm::APFixedPoint;
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using llvm::APFloat;
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using llvm::APInt;
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using llvm::APSInt;
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using llvm::FixedPointSemantics;
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namespace {
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FixedPointSemantics Saturated(FixedPointSemantics Sema) {
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Sema.setSaturated(true);
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return Sema;
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}
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FixedPointSemantics getSAccumSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/7, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getAccumSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/15, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getLAccumSema() {
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return FixedPointSemantics(/*width=*/64, /*scale=*/31, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getSFractSema() {
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return FixedPointSemantics(/*width=*/8, /*scale=*/7, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getFractSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/15, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getLFractSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/31, /*isSigned=*/true,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getUSAccumSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/8, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getUAccumSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/16, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getULAccumSema() {
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return FixedPointSemantics(/*width=*/64, /*scale=*/32, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getUSFractSema() {
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return FixedPointSemantics(/*width=*/8, /*scale=*/8, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getUFractSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/16, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getULFractSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/32, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/false);
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}
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FixedPointSemantics getPadUSAccumSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/7, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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FixedPointSemantics getPadUAccumSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/15, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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FixedPointSemantics getPadULAccumSema() {
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return FixedPointSemantics(/*width=*/64, /*scale=*/31, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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FixedPointSemantics getPadUSFractSema() {
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return FixedPointSemantics(/*width=*/8, /*scale=*/7, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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FixedPointSemantics getPadUFractSema() {
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return FixedPointSemantics(/*width=*/16, /*scale=*/15, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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FixedPointSemantics getPadULFractSema() {
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return FixedPointSemantics(/*width=*/32, /*scale=*/31, /*isSigned=*/false,
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/*isSaturated=*/false,
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/*hasUnsignedPadding=*/true);
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}
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void CheckUnpaddedMax(const FixedPointSemantics &Sema) {
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ASSERT_EQ(APFixedPoint::getMax(Sema).getValue(),
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APSInt::getMaxValue(Sema.getWidth(), !Sema.isSigned()));
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}
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void CheckPaddedMax(const FixedPointSemantics &Sema) {
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ASSERT_EQ(APFixedPoint::getMax(Sema).getValue(),
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APSInt::getMaxValue(Sema.getWidth(), !Sema.isSigned()) >> 1);
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}
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void CheckMin(const FixedPointSemantics &Sema) {
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ASSERT_EQ(APFixedPoint::getMin(Sema).getValue(),
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APSInt::getMinValue(Sema.getWidth(), !Sema.isSigned()));
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}
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TEST(FixedPointTest, getMax) {
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CheckUnpaddedMax(getSAccumSema());
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CheckUnpaddedMax(getAccumSema());
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CheckUnpaddedMax(getLAccumSema());
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CheckUnpaddedMax(getUSAccumSema());
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CheckUnpaddedMax(getUAccumSema());
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CheckUnpaddedMax(getULAccumSema());
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CheckUnpaddedMax(getSFractSema());
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CheckUnpaddedMax(getFractSema());
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CheckUnpaddedMax(getLFractSema());
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CheckUnpaddedMax(getUSFractSema());
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CheckUnpaddedMax(getUFractSema());
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CheckUnpaddedMax(getULFractSema());
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CheckPaddedMax(getPadUSAccumSema());
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CheckPaddedMax(getPadUAccumSema());
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CheckPaddedMax(getPadULAccumSema());
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CheckPaddedMax(getPadUSFractSema());
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CheckPaddedMax(getPadUFractSema());
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CheckPaddedMax(getPadULFractSema());
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}
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TEST(FixedPointTest, getMin) {
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CheckMin(getSAccumSema());
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CheckMin(getAccumSema());
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CheckMin(getLAccumSema());
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CheckMin(getUSAccumSema());
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CheckMin(getUAccumSema());
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CheckMin(getULAccumSema());
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CheckMin(getSFractSema());
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CheckMin(getFractSema());
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CheckMin(getLFractSema());
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CheckMin(getUSFractSema());
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CheckMin(getUFractSema());
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CheckMin(getULFractSema());
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CheckMin(getPadUSAccumSema());
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CheckMin(getPadUAccumSema());
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CheckMin(getPadULAccumSema());
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CheckMin(getPadUSFractSema());
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CheckMin(getPadUFractSema());
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CheckMin(getPadULFractSema());
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}
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void CheckIntPart(const FixedPointSemantics &Sema, int64_t IntPart) {
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unsigned Scale = Sema.getScale();
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// Value with a fraction
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APFixedPoint ValWithFract(APInt(Sema.getWidth(),
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(IntPart << Scale) + (1ULL << (Scale - 1)),
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Sema.isSigned()),
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Sema);
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ASSERT_EQ(ValWithFract.getIntPart(), IntPart);
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// Just fraction
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APFixedPoint JustFract(
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APInt(Sema.getWidth(), (1ULL << (Scale - 1)), Sema.isSigned()), Sema);
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ASSERT_EQ(JustFract.getIntPart(), 0);
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// Whole number
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APFixedPoint WholeNum(
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APInt(Sema.getWidth(), (IntPart << Scale), Sema.isSigned()), Sema);
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ASSERT_EQ(WholeNum.getIntPart(), IntPart);
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// Negative
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if (Sema.isSigned()) {
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APFixedPoint Negative(
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APInt(Sema.getWidth(), (IntPart << Scale), Sema.isSigned()), Sema);
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ASSERT_EQ(Negative.getIntPart(), IntPart);
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}
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}
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void CheckIntPartMin(const FixedPointSemantics &Sema, int64_t Expected) {
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ASSERT_EQ(APFixedPoint::getMin(Sema).getIntPart(), Expected);
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}
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void CheckIntPartMax(const FixedPointSemantics &Sema, uint64_t Expected) {
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ASSERT_EQ(APFixedPoint::getMax(Sema).getIntPart(), Expected);
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}
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TEST(FixedPoint, getIntPart) {
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// Normal values
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CheckIntPart(getSAccumSema(), 2);
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CheckIntPart(getAccumSema(), 2);
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CheckIntPart(getLAccumSema(), 2);
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CheckIntPart(getUSAccumSema(), 2);
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CheckIntPart(getUAccumSema(), 2);
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CheckIntPart(getULAccumSema(), 2);
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// Zero
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CheckIntPart(getSAccumSema(), 0);
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CheckIntPart(getAccumSema(), 0);
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CheckIntPart(getLAccumSema(), 0);
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CheckIntPart(getUSAccumSema(), 0);
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CheckIntPart(getUAccumSema(), 0);
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CheckIntPart(getULAccumSema(), 0);
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CheckIntPart(getSFractSema(), 0);
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CheckIntPart(getFractSema(), 0);
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CheckIntPart(getLFractSema(), 0);
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CheckIntPart(getUSFractSema(), 0);
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CheckIntPart(getUFractSema(), 0);
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CheckIntPart(getULFractSema(), 0);
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// Min
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CheckIntPartMin(getSAccumSema(), -256);
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CheckIntPartMin(getAccumSema(), -65536);
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CheckIntPartMin(getLAccumSema(), -4294967296);
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CheckIntPartMin(getSFractSema(), -1);
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CheckIntPartMin(getFractSema(), -1);
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CheckIntPartMin(getLFractSema(), -1);
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// Max
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CheckIntPartMax(getSAccumSema(), 255);
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CheckIntPartMax(getAccumSema(), 65535);
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CheckIntPartMax(getLAccumSema(), 4294967295);
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CheckIntPartMax(getUSAccumSema(), 255);
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CheckIntPartMax(getUAccumSema(), 65535);
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CheckIntPartMax(getULAccumSema(), 4294967295);
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CheckIntPartMax(getSFractSema(), 0);
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CheckIntPartMax(getFractSema(), 0);
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CheckIntPartMax(getLFractSema(), 0);
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CheckIntPartMax(getUSFractSema(), 0);
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CheckIntPartMax(getUFractSema(), 0);
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CheckIntPartMax(getULFractSema(), 0);
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// Padded
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// Normal Values
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CheckIntPart(getPadUSAccumSema(), 2);
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CheckIntPart(getPadUAccumSema(), 2);
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CheckIntPart(getPadULAccumSema(), 2);
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// Zero
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CheckIntPart(getPadUSAccumSema(), 0);
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CheckIntPart(getPadUAccumSema(), 0);
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CheckIntPart(getPadULAccumSema(), 0);
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CheckIntPart(getPadUSFractSema(), 0);
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CheckIntPart(getPadUFractSema(), 0);
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CheckIntPart(getPadULFractSema(), 0);
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// Max
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CheckIntPartMax(getPadUSAccumSema(), 255);
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CheckIntPartMax(getPadUAccumSema(), 65535);
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CheckIntPartMax(getPadULAccumSema(), 4294967295);
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CheckIntPartMax(getPadUSFractSema(), 0);
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CheckIntPartMax(getPadUFractSema(), 0);
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CheckIntPartMax(getPadULFractSema(), 0);
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}
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TEST(FixedPoint, compare) {
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// Equality
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// With fractional part (2.5)
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// Across sizes
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ASSERT_EQ(APFixedPoint(320, getSAccumSema()),
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APFixedPoint(81920, getAccumSema()));
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ASSERT_EQ(APFixedPoint(320, getSAccumSema()),
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APFixedPoint(5368709120, getLAccumSema()));
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ASSERT_EQ(APFixedPoint(0, getSAccumSema()), APFixedPoint(0, getLAccumSema()));
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// Across types (0.5)
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ASSERT_EQ(APFixedPoint(64, getSAccumSema()),
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APFixedPoint(64, getSFractSema()));
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ASSERT_EQ(APFixedPoint(16384, getAccumSema()),
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APFixedPoint(16384, getFractSema()));
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ASSERT_EQ(APFixedPoint(1073741824, getLAccumSema()),
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APFixedPoint(1073741824, getLFractSema()));
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// Across widths and types (0.5)
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ASSERT_EQ(APFixedPoint(64, getSAccumSema()),
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APFixedPoint(16384, getFractSema()));
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ASSERT_EQ(APFixedPoint(64, getSAccumSema()),
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APFixedPoint(1073741824, getLFractSema()));
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// Across saturation
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ASSERT_EQ(APFixedPoint(320, getSAccumSema()),
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APFixedPoint(81920, Saturated(getAccumSema())));
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// Across signs
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ASSERT_EQ(APFixedPoint(320, getSAccumSema()),
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APFixedPoint(640, getUSAccumSema()));
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ASSERT_EQ(APFixedPoint(-320, getSAccumSema()),
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APFixedPoint(-81920, getAccumSema()));
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// Across padding
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ASSERT_EQ(APFixedPoint(320, getSAccumSema()),
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APFixedPoint(320, getPadUSAccumSema()));
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ASSERT_EQ(APFixedPoint(640, getUSAccumSema()),
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APFixedPoint(320, getPadUSAccumSema()));
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// Less than
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ASSERT_LT(APFixedPoint(-1, getSAccumSema()), APFixedPoint(0, getAccumSema()));
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ASSERT_LT(APFixedPoint(-1, getSAccumSema()),
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APFixedPoint(0, getUAccumSema()));
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ASSERT_LT(APFixedPoint(0, getSAccumSema()), APFixedPoint(1, getAccumSema()));
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ASSERT_LT(APFixedPoint(0, getSAccumSema()), APFixedPoint(1, getUAccumSema()));
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ASSERT_LT(APFixedPoint(0, getUSAccumSema()), APFixedPoint(1, getAccumSema()));
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ASSERT_LT(APFixedPoint(0, getUSAccumSema()),
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APFixedPoint(1, getUAccumSema()));
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// Greater than
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ASSERT_GT(APFixedPoint(0, getAccumSema()), APFixedPoint(-1, getSAccumSema()));
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ASSERT_GT(APFixedPoint(0, getUAccumSema()),
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APFixedPoint(-1, getSAccumSema()));
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ASSERT_GT(APFixedPoint(1, getAccumSema()), APFixedPoint(0, getSAccumSema()));
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ASSERT_GT(APFixedPoint(1, getUAccumSema()), APFixedPoint(0, getSAccumSema()));
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ASSERT_GT(APFixedPoint(1, getAccumSema()), APFixedPoint(0, getUSAccumSema()));
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ASSERT_GT(APFixedPoint(1, getUAccumSema()),
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APFixedPoint(0, getUSAccumSema()));
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}
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// Check that a fixed point value in one sema is the same in another sema
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void CheckUnsaturatedConversion(FixedPointSemantics Src,
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FixedPointSemantics Dst, int64_t TestVal) {
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int64_t ScaledVal = TestVal;
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bool IsNegative = ScaledVal < 0;
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if (IsNegative)
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ScaledVal = -ScaledVal;
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if (Dst.getScale() > Src.getScale()) {
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ScaledVal <<= (Dst.getScale() - Src.getScale());
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} else {
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ScaledVal >>= (Src.getScale() - Dst.getScale());
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}
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if (IsNegative)
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ScaledVal = -ScaledVal;
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APFixedPoint Fixed(TestVal, Src);
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APFixedPoint Expected(ScaledVal, Dst);
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ASSERT_EQ(Fixed.convert(Dst), Expected);
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}
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// Check the value in a given fixed point sema overflows to the saturated min
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// for another sema
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void CheckSaturatedConversionMin(FixedPointSemantics Src,
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FixedPointSemantics Dst, int64_t TestVal) {
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APFixedPoint Fixed(TestVal, Src);
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ASSERT_EQ(Fixed.convert(Dst), APFixedPoint::getMin(Dst));
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}
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// Check the value in a given fixed point sema overflows to the saturated max
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// for another sema
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void CheckSaturatedConversionMax(FixedPointSemantics Src,
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FixedPointSemantics Dst, int64_t TestVal) {
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APFixedPoint Fixed(TestVal, Src);
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ASSERT_EQ(Fixed.convert(Dst), APFixedPoint::getMax(Dst));
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}
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// Check one signed _Accum sema converted to other sema for different values.
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void CheckSignedAccumConversionsAgainstOthers(FixedPointSemantics Src,
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int64_t OneVal) {
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int64_t NormalVal = (OneVal * 2) + (OneVal / 2); // 2.5
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int64_t HalfVal = (OneVal / 2); // 0.5
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// +Accums to Accums
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CheckUnsaturatedConversion(Src, getSAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getLAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getUSAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getUAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getULAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getPadUSAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getPadUAccumSema(), NormalVal);
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CheckUnsaturatedConversion(Src, getPadULAccumSema(), NormalVal);
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// -Accums to Accums
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CheckUnsaturatedConversion(Src, getSAccumSema(), -NormalVal);
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CheckUnsaturatedConversion(Src, getAccumSema(), -NormalVal);
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CheckUnsaturatedConversion(Src, getLAccumSema(), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getUSAccumSema()), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getUAccumSema()), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getULAccumSema()), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getPadUSAccumSema()), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getPadUAccumSema()), -NormalVal);
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CheckSaturatedConversionMin(Src, Saturated(getPadULAccumSema()), -NormalVal);
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// +Accums to Fracts
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CheckUnsaturatedConversion(Src, getSFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getLFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getUSFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getUFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getULFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getPadUSFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getPadUFractSema(), HalfVal);
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CheckUnsaturatedConversion(Src, getPadULFractSema(), HalfVal);
|
|
|
|
// -Accums to Fracts
|
|
CheckUnsaturatedConversion(Src, getSFractSema(), -HalfVal);
|
|
CheckUnsaturatedConversion(Src, getFractSema(), -HalfVal);
|
|
CheckUnsaturatedConversion(Src, getLFractSema(), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getUSFractSema()), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getUFractSema()), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getULFractSema()), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getPadUSFractSema()), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getPadUFractSema()), -HalfVal);
|
|
CheckSaturatedConversionMin(Src, Saturated(getPadULFractSema()), -HalfVal);
|
|
|
|
// 0 to Accums
|
|
CheckUnsaturatedConversion(Src, getSAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getLAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getUSAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getUAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getULAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadUSAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadUAccumSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadULAccumSema(), 0);
|
|
|
|
// 0 to Fracts
|
|
CheckUnsaturatedConversion(Src, getSFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getLFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getUSFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getUFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getULFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadUSFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadUFractSema(), 0);
|
|
CheckUnsaturatedConversion(Src, getPadULFractSema(), 0);
|
|
}
|
|
|
|
// Check one unsigned _Accum sema converted to other sema for different
|
|
// values.
|
|
void CheckUnsignedAccumConversionsAgainstOthers(FixedPointSemantics Src,
|
|
int64_t OneVal) {
|
|
int64_t NormalVal = (OneVal * 2) + (OneVal / 2); // 2.5
|
|
int64_t HalfVal = (OneVal / 2); // 0.5
|
|
|
|
// +UAccums to Accums
|
|
CheckUnsaturatedConversion(Src, getSAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getLAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getUSAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getUAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getULAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getPadUSAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getPadUAccumSema(), NormalVal);
|
|
CheckUnsaturatedConversion(Src, getPadULAccumSema(), NormalVal);
|
|
|
|
// +UAccums to Fracts
|
|
CheckUnsaturatedConversion(Src, getSFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getLFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getUSFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getUFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getULFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getPadUSFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getPadUFractSema(), HalfVal);
|
|
CheckUnsaturatedConversion(Src, getPadULFractSema(), HalfVal);
|
|
}
|
|
|
|
TEST(FixedPoint, AccumConversions) {
|
|
// Normal conversions
|
|
CheckSignedAccumConversionsAgainstOthers(getSAccumSema(), 128);
|
|
CheckUnsignedAccumConversionsAgainstOthers(getUSAccumSema(), 256);
|
|
CheckSignedAccumConversionsAgainstOthers(getAccumSema(), 32768);
|
|
CheckUnsignedAccumConversionsAgainstOthers(getUAccumSema(), 65536);
|
|
CheckSignedAccumConversionsAgainstOthers(getLAccumSema(), 2147483648);
|
|
CheckUnsignedAccumConversionsAgainstOthers(getULAccumSema(), 4294967296);
|
|
|
|
CheckUnsignedAccumConversionsAgainstOthers(getPadUSAccumSema(), 128);
|
|
CheckUnsignedAccumConversionsAgainstOthers(getPadUAccumSema(), 32768);
|
|
CheckUnsignedAccumConversionsAgainstOthers(getPadULAccumSema(), 2147483648);
|
|
}
|
|
|
|
TEST(FixedPoint, AccumConversionOverflow) {
|
|
// To SAccum max limit (65536)
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getAccumSema()),
|
|
140737488355328);
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getUAccumSema()),
|
|
140737488355328);
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getPadUAccumSema()),
|
|
140737488355328);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getAccumSema()),
|
|
281474976710656);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getUAccumSema()),
|
|
281474976710656);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getPadUAccumSema()),
|
|
281474976710656);
|
|
|
|
CheckSaturatedConversionMax(getPadULAccumSema(), Saturated(getAccumSema()),
|
|
140737488355328);
|
|
CheckSaturatedConversionMax(getPadULAccumSema(), Saturated(getUAccumSema()),
|
|
140737488355328);
|
|
CheckSaturatedConversionMax(getPadULAccumSema(),
|
|
Saturated(getPadUAccumSema()), 140737488355328);
|
|
|
|
// To SAccum min limit (-65536)
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getAccumSema()),
|
|
-140737488355328);
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getUAccumSema()),
|
|
-140737488355328);
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getPadUAccumSema()),
|
|
-140737488355328);
|
|
}
|
|
|
|
TEST(FixedPoint, SAccumConversionOverflow) {
|
|
// To SAccum max limit (256)
|
|
CheckSaturatedConversionMax(getAccumSema(), Saturated(getSAccumSema()),
|
|
8388608);
|
|
CheckSaturatedConversionMax(getAccumSema(), Saturated(getUSAccumSema()),
|
|
8388608);
|
|
CheckSaturatedConversionMax(getAccumSema(), Saturated(getPadUSAccumSema()),
|
|
8388608);
|
|
CheckSaturatedConversionMax(getUAccumSema(), Saturated(getSAccumSema()),
|
|
16777216);
|
|
CheckSaturatedConversionMax(getUAccumSema(), Saturated(getUSAccumSema()),
|
|
16777216);
|
|
CheckSaturatedConversionMax(getUAccumSema(), Saturated(getPadUSAccumSema()),
|
|
16777216);
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getSAccumSema()),
|
|
549755813888);
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getUSAccumSema()),
|
|
549755813888);
|
|
CheckSaturatedConversionMax(getLAccumSema(), Saturated(getPadUSAccumSema()),
|
|
549755813888);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getSAccumSema()),
|
|
1099511627776);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getUSAccumSema()),
|
|
1099511627776);
|
|
CheckSaturatedConversionMax(getULAccumSema(), Saturated(getPadUSAccumSema()),
|
|
1099511627776);
|
|
|
|
CheckSaturatedConversionMax(getPadUAccumSema(), Saturated(getSAccumSema()),
|
|
8388608);
|
|
CheckSaturatedConversionMax(getPadUAccumSema(), Saturated(getUSAccumSema()),
|
|
8388608);
|
|
CheckSaturatedConversionMax(getPadUAccumSema(),
|
|
Saturated(getPadUSAccumSema()), 8388608);
|
|
CheckSaturatedConversionMax(getPadULAccumSema(), Saturated(getSAccumSema()),
|
|
549755813888);
|
|
CheckSaturatedConversionMax(getPadULAccumSema(), Saturated(getUSAccumSema()),
|
|
549755813888);
|
|
CheckSaturatedConversionMax(getPadULAccumSema(),
|
|
Saturated(getPadUSAccumSema()), 549755813888);
|
|
|
|
// To SAccum min limit (-256)
|
|
CheckSaturatedConversionMin(getAccumSema(), Saturated(getSAccumSema()),
|
|
-8388608);
|
|
CheckSaturatedConversionMin(getAccumSema(), Saturated(getUSAccumSema()),
|
|
-8388608);
|
|
CheckSaturatedConversionMin(getAccumSema(), Saturated(getPadUSAccumSema()),
|
|
-8388608);
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getSAccumSema()),
|
|
-549755813888);
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getUSAccumSema()),
|
|
-549755813888);
|
|
CheckSaturatedConversionMin(getLAccumSema(), Saturated(getPadUSAccumSema()),
|
|
-549755813888);
|
|
}
|
|
|
|
TEST(FixedPoint, GetValueSignAfterConversion) {
|
|
APFixedPoint Fixed(255 << 7, getSAccumSema());
|
|
ASSERT_TRUE(Fixed.getValue().isSigned());
|
|
APFixedPoint UFixed = Fixed.convert(getUSAccumSema());
|
|
ASSERT_TRUE(UFixed.getValue().isUnsigned());
|
|
ASSERT_EQ(UFixed.getValue(), APSInt::getUnsigned(255 << 8).extOrTrunc(16));
|
|
}
|
|
|
|
TEST(FixedPoint, ModularWrapAround) {
|
|
// Positive to negative
|
|
APFixedPoint Val = APFixedPoint(1ULL << 7, getSAccumSema());
|
|
ASSERT_EQ(Val.convert(getLFractSema()).getValue(), -(1ULL << 31));
|
|
|
|
Val = APFixedPoint(1ULL << 23, getAccumSema());
|
|
ASSERT_EQ(Val.convert(getSAccumSema()).getValue(), -(1ULL << 15));
|
|
|
|
Val = APFixedPoint(1ULL << 47, getLAccumSema());
|
|
ASSERT_EQ(Val.convert(getAccumSema()).getValue(), -(1ULL << 31));
|
|
|
|
// Negative to positive
|
|
Val = APFixedPoint(/*-1.5*/ -192, getSAccumSema());
|
|
ASSERT_EQ(Val.convert(getLFractSema()).getValue(), 1ULL << 30);
|
|
|
|
Val = APFixedPoint(-(257 << 15), getAccumSema());
|
|
ASSERT_EQ(Val.convert(getSAccumSema()).getValue(), 255 << 7);
|
|
|
|
Val = APFixedPoint(-(65537ULL << 31), getLAccumSema());
|
|
ASSERT_EQ(Val.convert(getAccumSema()).getValue(), 65535 << 15);
|
|
|
|
// Signed to unsigned
|
|
Val = APFixedPoint(-(1 << 7), getSAccumSema());
|
|
ASSERT_EQ(Val.convert(getUSAccumSema()).getValue(), 255 << 8);
|
|
|
|
Val = APFixedPoint(-(1 << 15), getAccumSema());
|
|
ASSERT_EQ(Val.convert(getUAccumSema()).getValue(), 65535ULL << 16);
|
|
|
|
Val = APFixedPoint(-(1ULL << 31), getLAccumSema());
|
|
ASSERT_EQ(Val.convert(getULAccumSema()).getValue().getZExtValue(),
|
|
4294967295ULL << 32);
|
|
}
|
|
|
|
enum OvfKind { MinSat, MaxSat };
|
|
|
|
void CheckFloatToFixedConversion(APFloat &Val, const FixedPointSemantics &Sema,
|
|
int64_t ExpectedNonSat) {
|
|
bool Ovf;
|
|
ASSERT_EQ(APFixedPoint::getFromFloatValue(Val, Sema, &Ovf).getValue(),
|
|
ExpectedNonSat);
|
|
ASSERT_EQ(Ovf, false);
|
|
ASSERT_EQ(
|
|
APFixedPoint::getFromFloatValue(Val, Saturated(Sema), &Ovf).getValue(),
|
|
ExpectedNonSat);
|
|
ASSERT_EQ(Ovf, false);
|
|
}
|
|
|
|
void CheckFloatToFixedConversion(APFloat &Val, const FixedPointSemantics &Sema,
|
|
OvfKind ExpectedOvf) {
|
|
bool Ovf;
|
|
(void)APFixedPoint::getFromFloatValue(Val, Sema, &Ovf);
|
|
ASSERT_EQ(Ovf, true);
|
|
ASSERT_EQ(
|
|
APFixedPoint::getFromFloatValue(Val, Saturated(Sema), &Ovf).getValue(),
|
|
(ExpectedOvf == MinSat ? APFixedPoint::getMin(Sema)
|
|
: APFixedPoint::getMax(Sema))
|
|
.getValue());
|
|
ASSERT_EQ(Ovf, false);
|
|
}
|
|
|
|
TEST(FixedPoint, FloatToFixed) {
|
|
APFloat Val(0.0f);
|
|
|
|
// Simple exact fraction
|
|
Val = APFloat(0.75f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), 3ULL << 5);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), 3ULL << 13);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), 3ULL << 29);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), 3ULL << 6);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), 3ULL << 14);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), 3ULL << 30);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), 3ULL << 5);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), 3ULL << 13);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), 3ULL << 29);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), 3ULL << 6);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), 3ULL << 14);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), 3ULL << 30);
|
|
|
|
// Simple negative exact fraction
|
|
Val = APFloat(-0.75f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), -3ULL << 5);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), -3ULL << 13);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), -3ULL << 29);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), MinSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), -3ULL << 5);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), -3ULL << 13);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), -3ULL << 29);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), MinSat);
|
|
|
|
// Highly precise fraction
|
|
Val = APFloat(0.999999940395355224609375f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), 0x7FULL);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), 0x7FFFULL);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), 0xFFFFFFULL << 7);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), 0xFFULL);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), 0xFFFFULL);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), 0xFFFFFFULL << 8);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), 0x7FULL);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), 0x7FFFULL);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), 0xFFFFFFULL << 7);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), 0xFFULL);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), 0xFFFFULL);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), 0xFFFFFFULL << 8);
|
|
|
|
// Integral and fraction
|
|
Val = APFloat(17.99609375f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), 0x11FFULL >> 1);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), 0x11FFULL << 7);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), 0x11FFULL << 23);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), 0x11FFULL);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), 0x11FFULL << 8);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), 0x11FFULL << 24);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), MaxSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), MaxSat);
|
|
|
|
// Negative integral and fraction
|
|
Val = APFloat(-17.99609375f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), -0x11FELL >> 1);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), -0x11FFULL << 7);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), -0x11FFULL << 23);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), MinSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), MinSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), MinSat);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), MinSat);
|
|
|
|
// Very large value
|
|
Val = APFloat(1.0e38f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), MaxSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), MaxSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), MaxSat);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), MaxSat);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), MaxSat);
|
|
|
|
// Very small value
|
|
Val = APFloat(1.0e-38f);
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), 0);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), 0);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), 0);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), 0);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), 0);
|
|
|
|
// Half conversion
|
|
Val = APFloat(0.99951171875f);
|
|
bool Ignored;
|
|
Val.convert(APFloat::IEEEhalf(), APFloat::rmNearestTiesToEven, &Ignored);
|
|
|
|
CheckFloatToFixedConversion(Val, getSAccumSema(), 0x7FULL);
|
|
CheckFloatToFixedConversion(Val, getAccumSema(), 0x7FFULL << 4);
|
|
CheckFloatToFixedConversion(Val, getLAccumSema(), 0x7FFULL << 20);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSAccumSema(), 0xFFULL);
|
|
CheckFloatToFixedConversion(Val, getUAccumSema(), 0xFFEULL << 4);
|
|
CheckFloatToFixedConversion(Val, getULAccumSema(), 0xFFEULL << 20);
|
|
|
|
CheckFloatToFixedConversion(Val, getSFractSema(), 0x7FULL);
|
|
CheckFloatToFixedConversion(Val, getFractSema(), 0x7FFULL << 4);
|
|
CheckFloatToFixedConversion(Val, getLFractSema(), 0x7FFULL << 20);
|
|
|
|
CheckFloatToFixedConversion(Val, getUSFractSema(), 0xFFULL);
|
|
CheckFloatToFixedConversion(Val, getUFractSema(), 0xFFEULL << 4);
|
|
CheckFloatToFixedConversion(Val, getULFractSema(), 0xFFEULL << 20);
|
|
}
|
|
|
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void CheckFixedToFloatConversion(int64_t Val, const FixedPointSemantics &Sema,
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float Result) {
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APFixedPoint FXVal(Val, Sema);
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APFloat APRes(Result);
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ASSERT_EQ(FXVal.convertToFloat(APFloat::IEEEsingle()), APRes);
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}
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void CheckFixedToHalfConversion(int64_t Val, const FixedPointSemantics &Sema,
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float Result) {
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APFixedPoint FXVal(Val, Sema);
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APFloat APRes(Result);
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bool Ignored;
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APRes.convert(APFloat::IEEEhalf(), APFloat::rmNearestTiesToEven, &Ignored);
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ASSERT_EQ(FXVal.convertToFloat(APFloat::IEEEhalf()), APRes);
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}
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TEST(FixedPoint, FixedToFloat) {
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int64_t Val = 0x1ULL;
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CheckFixedToFloatConversion(Val, getSAccumSema(), 0.0078125f);
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CheckFixedToFloatConversion(Val, getFractSema(), 0.000030517578125f);
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CheckFixedToFloatConversion(Val, getAccumSema(), 0.000030517578125f);
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CheckFixedToFloatConversion(Val, getLFractSema(),
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0.0000000004656612873077392578125f);
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CheckFixedToFloatConversion(Val, getUSAccumSema(), 0.00390625f);
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CheckFixedToFloatConversion(Val, getUFractSema(), 0.0000152587890625f);
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CheckFixedToFloatConversion(Val, getUAccumSema(), 0.0000152587890625f);
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CheckFixedToFloatConversion(Val, getULFractSema(),
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0.00000000023283064365386962890625f);
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Val = 0x7FULL;
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CheckFixedToFloatConversion(Val, getSAccumSema(), 0.9921875f);
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CheckFixedToFloatConversion(Val, getFractSema(), 0.003875732421875f);
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CheckFixedToFloatConversion(Val, getAccumSema(), 0.003875732421875f);
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CheckFixedToFloatConversion(Val, getLFractSema(),
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0.0000000591389834880828857421875f);
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CheckFixedToFloatConversion(Val, getUSAccumSema(), 0.49609375f);
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CheckFixedToFloatConversion(Val, getUFractSema(), 0.0019378662109375f);
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CheckFixedToFloatConversion(Val, getUAccumSema(), 0.0019378662109375f);
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CheckFixedToFloatConversion(Val, getULFractSema(),
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0.00000002956949174404144287109375f);
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Val = -0x1ULL;
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CheckFixedToFloatConversion(Val, getSAccumSema(), -0.0078125f);
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CheckFixedToFloatConversion(Val, getFractSema(), -0.000030517578125f);
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CheckFixedToFloatConversion(Val, getAccumSema(), -0.000030517578125f);
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CheckFixedToFloatConversion(Val, getLFractSema(),
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-0.0000000004656612873077392578125f);
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CheckFixedToFloatConversion(-0x80ULL, getSAccumSema(), -1.0f);
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CheckFixedToFloatConversion(-0x8000ULL, getFractSema(), -1.0f);
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CheckFixedToFloatConversion(-0x8000ULL, getAccumSema(), -1.0f);
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CheckFixedToFloatConversion(-0x80000000ULL, getLFractSema(), -1.0f);
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Val = 0xAFAULL;
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CheckFixedToFloatConversion(Val, getSAccumSema(), 21.953125f);
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CheckFixedToFloatConversion(Val, getFractSema(), 0.08575439453125f);
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CheckFixedToFloatConversion(Val, getAccumSema(), 0.08575439453125f);
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CheckFixedToFloatConversion(Val, getLFractSema(),
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0.000001308508217334747314453125f);
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CheckFixedToFloatConversion(Val, getUSAccumSema(), 10.9765625f);
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CheckFixedToFloatConversion(Val, getUFractSema(), 0.042877197265625f);
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CheckFixedToFloatConversion(Val, getUAccumSema(), 0.042877197265625f);
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CheckFixedToFloatConversion(Val, getULFractSema(),
|
|
0.0000006542541086673736572265625f);
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|
|
|
Val = -0xAFAULL;
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CheckFixedToFloatConversion(Val, getSAccumSema(), -21.953125f);
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CheckFixedToFloatConversion(Val, getFractSema(), -0.08575439453125f);
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CheckFixedToFloatConversion(Val, getAccumSema(), -0.08575439453125f);
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|
CheckFixedToFloatConversion(Val, getLFractSema(),
|
|
-0.000001308508217334747314453125f);
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|
|
|
Val = 0x40000080ULL;
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|
CheckFixedToFloatConversion(Val, getAccumSema(), 32768.00390625f);
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|
CheckFixedToFloatConversion(Val, getLFractSema(),
|
|
0.500000059604644775390625f);
|
|
|
|
CheckFixedToFloatConversion(Val, getUAccumSema(), 16384.001953125f);
|
|
CheckFixedToFloatConversion(Val, getULFractSema(),
|
|
0.2500000298023223876953125f);
|
|
|
|
Val = 0x40000040ULL;
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|
CheckFixedToFloatConversion(Val, getAccumSema(), 32768.0f);
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|
CheckFixedToFloatConversion(Val, getLFractSema(), 0.5f);
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|
|
|
CheckFixedToFloatConversion(Val, getUAccumSema(), 16384.0f);
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|
CheckFixedToFloatConversion(Val, getULFractSema(), 0.25f);
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|
|
|
Val = 0x7FF0ULL;
|
|
CheckFixedToHalfConversion(Val, getAccumSema(), 0.99951171875f);
|
|
CheckFixedToHalfConversion(Val, getLFractSema(), 0.000015251338481903076171875f);
|
|
|
|
CheckFixedToHalfConversion(Val, getUAccumSema(), 0.499755859375f);
|
|
CheckFixedToHalfConversion(Val, getULFractSema(), 0.0000076256692409515380859375f);
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|
}
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|
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} // namespace
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