Merge pull request #480 from lioncash/info

common/fp/info: Make half-precision info struct functions return correctly sized types

src/common/fp/info.h

@@ -31,10 +31,21 @@ struct FPInfo<u16> {
     static constexpr int exponent_max = 15;
     static constexpr int exponent_bias = 15;
 
-    static constexpr u32 Zero(bool sign) { return sign ? sign_mask : 0; }
-    static constexpr u32 Infinity(bool sign) { return exponent_mask | Zero(sign); }
-    static constexpr u32 MaxNormal(bool sign) { return (exponent_mask - 1) | Zero(sign); }
-    static constexpr u32 DefaultNaN() { return exponent_mask | (u32(1) << (explicit_mantissa_width - 1)); }
+    static constexpr u16 Zero(bool sign) {
+        return sign ? static_cast<u16>(sign_mask) : u16{0};
+    }
+
+    static constexpr u16 Infinity(bool sign) {
+        return static_cast<u16>(exponent_mask | Zero(sign));
+    }
+
+    static constexpr u16 MaxNormal(bool sign) {
+        return static_cast<u16>((exponent_mask - 1) | Zero(sign));
+    }
+
+    static constexpr u16 DefaultNaN() {
+        return static_cast<u16>(exponent_mask | (u32(1) << (explicit_mantissa_width - 1)));
+    }
 };
 
 template<>
@@ -88,7 +99,7 @@ struct FPInfo<u64> {
 template<typename FPT, bool sign, int exponent, FPT value>
 constexpr FPT FPValue() {
     if constexpr (value == 0) {
-        return FPT(FPInfo<FPT>::Zero(sign));
+        return FPInfo<FPT>::Zero(sign);
     }
 
     constexpr int point_position = static_cast<int>(FPInfo<FPT>::explicit_mantissa_width);

src/common/fp/op/FPMulAdd.cpp

@@ -35,7 +35,7 @@ FPT FPMulAdd(FPT addend, FPT op1, FPT op2, FPCR fpcr, FPSR& fpsr) {
 
     if (typeA == FPType::QNaN && ((inf1 && zero2) || (zero1 && inf2))) {
         FPProcessException(FPExc::InvalidOp, fpcr, fpsr);
-        return FPT(FPInfo<FPT>::DefaultNaN());
+        return FPInfo<FPT>::DefaultNaN();
     }
 
     if (maybe_nan) {
@@ -50,25 +50,25 @@ FPT FPMulAdd(FPT addend, FPT op1, FPT op2, FPCR fpcr, FPSR& fpsr) {
     // Raise NaN on (inf * inf) of opposite signs or (inf * zero).
     if ((inf1 && zero2) || (zero1 && inf2) || (infA && infP && signA != signP)) {
         FPProcessException(FPExc::InvalidOp, fpcr, fpsr);
-        return FPT(FPInfo<FPT>::DefaultNaN());
+        return FPInfo<FPT>::DefaultNaN();
     }
 
     // Handle infinities
     if ((infA && !signA) || (infP && !signP)) {
-        return FPT(FPInfo<FPT>::Infinity(false));
+        return FPInfo<FPT>::Infinity(false);
     }
     if ((infA && signA) || (infP && signP)) {
-        return FPT(FPInfo<FPT>::Infinity(true));
+        return FPInfo<FPT>::Infinity(true);
     }
 
     // Result is exactly zero
     if (zeroA && zeroP && signA == signP) {
-        return FPT(FPInfo<FPT>::Zero(signA));
+        return FPInfo<FPT>::Zero(signA);
     }
 
     const FPUnpacked result_value = FusedMulAdd(valueA, value1, value2);
     if (result_value.mantissa == 0) {
-        return FPT(FPInfo<FPT>::Zero(rounding == RoundingMode::TowardsMinusInfinity));
+        return FPInfo<FPT>::Zero(rounding == RoundingMode::TowardsMinusInfinity);
     }
     return FPRound<FPT>(result_value, fpcr, fpsr);
 }

src/common/fp/op/FPRSqrtEstimate.cpp

@@ -27,16 +27,16 @@ FPT FPRSqrtEstimate(FPT op, FPCR fpcr, FPSR& fpsr) {
 
     if (type == FPType::Zero) {
         FPProcessException(FPExc::DivideByZero, fpcr, fpsr);
-        return FPT(FPInfo<FPT>::Infinity(sign));
+        return FPInfo<FPT>::Infinity(sign);
     }
 
     if (sign) {
         FPProcessException(FPExc::InvalidOp, fpcr, fpsr);
-        return FPT(FPInfo<FPT>::DefaultNaN());
+        return FPInfo<FPT>::DefaultNaN();
     }
 
     if (type == FPType::Infinity) {
-        return FPT(FPInfo<FPT>::Zero(false));
+        return FPInfo<FPT>::Zero(false);
     }
 
     const int result_exponent = (-(value.exponent + 1)) >> 1;

src/common/fp/op/FPRSqrtStepFused.cpp

@@ -37,7 +37,7 @@ FPT FPRSqrtStepFused(FPT op1, FPT op2, FPCR fpcr, FPSR& fpsr) {
     }
 
     if (inf1 || inf2) {
-        return FPT(FPInfo<FPT>::Infinity(sign1 != sign2));
+        return FPInfo<FPT>::Infinity(sign1 != sign2);
     }
 
     // result_value = (3.0 + (value1 * value2)) / 2.0
@@ -45,7 +45,7 @@ FPT FPRSqrtStepFused(FPT op1, FPT op2, FPCR fpcr, FPSR& fpsr) {
     result_value.exponent--;
 
     if (result_value.mantissa == 0) {
-        return FPT(FPInfo<FPT>::Zero(fpcr.RMode() == RoundingMode::TowardsMinusInfinity));
+        return FPInfo<FPT>::Zero(fpcr.RMode() == RoundingMode::TowardsMinusInfinity);
     }
     return FPRound<FPT>(result_value, fpcr, fpsr);
 }

src/common/fp/op/FPRecipEstimate.cpp

@@ -31,12 +31,12 @@ FPT FPRecipEstimate(FPT op, FPCR fpcr, FPSR& fpsr) {
     }
 
     if (type == FPType::Infinity) {
-        return FPT(FPInfo<FPT>::Zero(sign));
+        return FPInfo<FPT>::Zero(sign);
     }
 
     if (type == FPType::Zero) {
         FPProcessException(FPExc::DivideByZero, fpcr, fpsr);
-        return FPT(FPInfo<FPT>::Infinity(sign));
+        return FPInfo<FPT>::Infinity(sign);
     }
 
     if (value.exponent < FPInfo<FPT>::exponent_min - 2) {
@@ -58,13 +58,13 @@ FPT FPRecipEstimate(FPT op, FPCR fpcr, FPSR& fpsr) {
 
         FPProcessException(FPExc::Overflow, fpcr, fpsr);
         FPProcessException(FPExc::Inexact, fpcr, fpsr);
-        return overflow_to_inf ? FPT(FPInfo<FPT>::Infinity(sign)) : FPT(FPInfo<FPT>::MaxNormal(sign));
+        return overflow_to_inf ? FPInfo<FPT>::Infinity(sign) : FPInfo<FPT>::MaxNormal(sign);
     }
 
     if ((fpcr.FZ() && !std::is_same_v<FPT, u16>) || (fpcr.FZ16() && std::is_same_v<FPT, u16>)) {
         if (value.exponent >= -FPInfo<FPT>::exponent_min) {
             fpsr.UFC(true);
-            return FPT(FPInfo<FPT>::Zero(sign));
+            return FPInfo<FPT>::Zero(sign);
         }
     }
 
@@ -87,7 +87,7 @@ FPT FPRecipEstimate(FPT op, FPCR fpcr, FPSR& fpsr) {
         }
     }
 
-    const FPT bits_sign = FPT(FPInfo<FPT>::Zero(sign));
+    const FPT bits_sign = FPInfo<FPT>::Zero(sign);
     const FPT bits_exponent = static_cast<FPT>(result_exponent + FPInfo<FPT>::exponent_bias);
     const FPT bits_mantissa = static_cast<FPT>(estimate);
     return FPT((bits_exponent << FPInfo<FPT>::explicit_mantissa_width) | (bits_mantissa & FPInfo<FPT>::mantissa_mask) | bits_sign);

src/common/fp/op/FPRecipExponent.cpp

@@ -38,7 +38,7 @@ FPT FPRecipExponent(FPT op, FPCR fpcr, FPSR& fpsr) {
         return FPProcessNaN(type, op, fpcr, fpsr);
     }
 
-    const FPT sign_bits = FPT(FPInfo<FPT>::Zero(sign));
+    const FPT sign_bits = FPInfo<FPT>::Zero(sign);
     const FPT exponent = DetermineExponentValue<FPT>(op);
 
     // Zero and denormals

src/common/fp/op/FPRecipStepFused.cpp

@@ -37,14 +37,14 @@ FPT FPRecipStepFused(FPT op1, FPT op2, FPCR fpcr, FPSR& fpsr) {
     }
 
     if (inf1 || inf2) {
-        return FPT(FPInfo<FPT>::Infinity(sign1 != sign2));
+        return FPInfo<FPT>::Infinity(sign1 != sign2);
     }
 
     // result_value = 2.0 + (value1 * value2)
     const FPUnpacked result_value = FusedMulAdd(ToNormalized(false, 0, 2), value1, value2);
 
     if (result_value.mantissa == 0) {
-        return FPT(FPInfo<FPT>::Zero(fpcr.RMode() == RoundingMode::TowardsMinusInfinity));
+        return FPInfo<FPT>::Zero(fpcr.RMode() == RoundingMode::TowardsMinusInfinity);
     }
     return FPRound<FPT>(result_value, fpcr, fpsr);
 }

src/common/fp/op/FPRoundInt.cpp

@@ -31,11 +31,11 @@ u64 FPRoundInt(FPT op, FPCR fpcr, RoundingMode rounding, bool exact, FPSR& fpsr)
     }
 
     if (type == FPType::Infinity) {
-        return FPT(FPInfo<FPT>::Infinity(sign));
+        return FPInfo<FPT>::Infinity(sign);
     }
     
     if (type == FPType::Zero) {
-        return FPT(FPInfo<FPT>::Zero(sign));
+        return FPInfo<FPT>::Zero(sign);
     }
 
     // Reshift decimal point back to bit zero.
@@ -79,7 +79,7 @@ u64 FPRoundInt(FPT op, FPCR fpcr, RoundingMode rounding, bool exact, FPSR& fpsr)
     const u64 abs_int_result = new_sign ? Safe::Negate<u64>(int_result) : static_cast<u64>(int_result);
 
     const FPT result = int_result == 0
-                     ? FPT(FPInfo<FPT>::Zero(sign))
+                     ? FPInfo<FPT>::Zero(sign)
                      : FPRound<FPT>(FPUnpacked{new_sign, normalized_point_position, abs_int_result}, fpcr, RoundingMode::TowardsZero, fpsr);
 
     if (error != ResidualError::Zero && exact) {

src/common/fp/process_nan.cpp

@@ -31,7 +31,7 @@ FPT FPProcessNaN(FPType type, FPT op, FPCR fpcr, FPSR& fpsr) {
     }
 
     if (fpcr.DN()) {
-        result = FPT(FPInfo<FPT>::DefaultNaN());
+        result = FPInfo<FPT>::DefaultNaN();
     }
 
     return result;

src/common/fp/unpacked.cpp

@@ -90,7 +90,7 @@ FPT FPRoundBase(FPUnpacked op, FPCR fpcr, RoundingMode rounding, FPSR& fpsr) {
 
     if (((!isFP16 && fpcr.FZ()) || (isFP16 && fpcr.FZ16())) && exponent < minimum_exp) {
         fpsr.UFC(true);
-        return FPT(FPInfo<FPT>::Zero(sign));
+        return FPInfo<FPT>::Zero(sign);
     }
 
     int biased_exp = std::max<int>(exponent - minimum_exp + 1, 0);
@@ -153,7 +153,7 @@ FPT FPRoundBase(FPUnpacked op, FPCR fpcr, RoundingMode rounding, FPSR& fpsr) {
 #endif
         constexpr int max_biased_exp = (1 << E) - 1;
         if (biased_exp >= max_biased_exp) {
-            result = overflow_to_inf ? FPT(FPInfo<FPT>::Infinity(sign)) : FPT(FPInfo<FPT>::MaxNormal(sign));
+            result = overflow_to_inf ? FPInfo<FPT>::Infinity(sign) : FPInfo<FPT>::MaxNormal(sign);
             FPProcessException(FPExc::Overflow, fpcr, fpsr);
             FPProcessException(FPExc::Inexact, fpcr, fpsr);
         } else {