Conversion from a wider to a narrower IEEE-754 floating-point type
Adds generic conversion from a wider to a narrower IEEE-754 floating-point type. Implement `__truncdfsf2` and `__truncdfsf2vfp` and associated test-cases.
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@ -129,7 +129,7 @@ features = ["c"]
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- [x] arm/softfloat-alias.list
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- [x] arm/softfloat-alias.list
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- [x] arm/subdf3vfp.S
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- [x] arm/subdf3vfp.S
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- [x] arm/subsf3vfp.S
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- [x] arm/subsf3vfp.S
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- [ ] arm/truncdfsf2vfp.S
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- [x] arm/truncdfsf2vfp.S
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- [ ] arm/udivmodsi4.S (generic version is done)
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- [ ] arm/udivmodsi4.S (generic version is done)
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- [ ] arm/udivsi3.S (generic version is done)
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- [ ] arm/udivsi3.S (generic version is done)
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- [ ] arm/umodsi3.S (generic version is done)
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- [ ] arm/umodsi3.S (generic version is done)
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@ -186,7 +186,7 @@ features = ["c"]
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- [x] subdf3.c
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- [x] subdf3.c
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- [x] subsf3.c
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- [x] subsf3.c
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- [ ] truncdfhf2.c
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- [ ] truncdfhf2.c
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- [ ] truncdfsf2.c
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- [x] truncdfsf2.c
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- [ ] truncsfhf2.c
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- [ ] truncsfhf2.c
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- [x] udivdi3.c
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- [x] udivdi3.c
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- [x] udivmoddi4.c
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- [x] udivmoddi4.c
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1
build.rs
1
build.rs
@ -174,7 +174,6 @@ mod c {
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"subvdi3.c",
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"subvdi3.c",
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"subvsi3.c",
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"subvsi3.c",
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"truncdfhf2.c",
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"truncdfhf2.c",
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"truncdfsf2.c",
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"truncsfhf2.c",
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"truncsfhf2.c",
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"ucmpdi2.c",
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"ucmpdi2.c",
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],
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],
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@ -11,6 +11,7 @@ pub mod sub;
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pub mod mul;
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pub mod mul;
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pub mod div;
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pub mod div;
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pub mod extend;
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pub mod extend;
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pub mod truncate;
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/// Trait for some basic operations on floats
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/// Trait for some basic operations on floats
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pub trait Float:
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pub trait Float:
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116
src/float/truncate.rs
Normal file
116
src/float/truncate.rs
Normal file
@ -0,0 +1,116 @@
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use float::Float;
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use int::{CastInto, Int};
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/// Generic conversion from a wider to a narrower IEEE-754 floating-point type
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fn truncate<F: Float, R: Float>(a: F) -> R
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where
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F::Int: CastInto<u64>,
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u64: CastInto<F::Int>,
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F::Int: CastInto<u32>,
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u32: CastInto<F::Int>,
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u32: CastInto<R::Int>,
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R::Int: CastInto<u32>,
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F::Int: CastInto<R::Int>,
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{
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let src_one = F::Int::ONE;
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let src_bits = F::BITS;
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let src_sign_bits = F::SIGNIFICAND_BITS;
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let src_exp_bias = F::EXPONENT_BIAS;
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let src_min_normal = F::IMPLICIT_BIT;
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let src_infinity = F::EXPONENT_MASK;
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let src_sign_mask = F::SIGN_MASK as F::Int;
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let src_abs_mask = src_sign_mask - src_one;
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let src_qnan = F::SIGNIFICAND_MASK;
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let src_nan_code = src_qnan - src_one;
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let dst_bits = R::BITS;
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let dst_sign_bits = R::SIGNIFICAND_BITS;
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let dst_inf_exp = R::EXPONENT_MAX;
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let dst_exp_bias = R::EXPONENT_BIAS;
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let dst_zero = R::Int::ZERO;
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let dst_one = R::Int::ONE;
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let dst_qnan = R::SIGNIFICAND_MASK;
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let dst_nan_code = dst_qnan - dst_one;
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let round_mask = (src_one << src_sign_bits - dst_sign_bits) - src_one;
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let half = src_one << src_sign_bits - dst_sign_bits - 1;
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let underflow_exp = src_exp_bias + 1 - dst_exp_bias;
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let overflow_exp = src_exp_bias + dst_inf_exp - dst_exp_bias;
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let underflow: F::Int = underflow_exp.cast(); // << src_sign_bits;
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let overflow: F::Int = overflow_exp.cast(); //<< src_sign_bits;
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let a_abs = a.repr() & src_abs_mask;
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let sign = a.repr() & src_sign_mask;
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let mut abs_result: R::Int;
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let src_underflow = underflow << src_sign_bits;
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let src_overflow = overflow << src_sign_bits;
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if a_abs.wrapping_sub(src_underflow) < a_abs.wrapping_sub(src_overflow) {
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// The exponent of a is within the range of normal numbers
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let bias_delta: R::Int = (src_exp_bias - dst_exp_bias).cast();
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abs_result = a_abs.cast();
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abs_result = abs_result >> src_sign_bits - dst_sign_bits;
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abs_result = abs_result - bias_delta.wrapping_shl(dst_sign_bits);
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let round_bits: F::Int = a_abs & round_mask;
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abs_result += if round_bits > half {
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dst_one
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} else {
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abs_result & dst_one
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};
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} else if a_abs > src_infinity {
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// a is NaN.
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// Conjure the result by beginning with infinity, setting the qNaN
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// bit and inserting the (truncated) trailing NaN field
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let nan_result: R::Int = (a_abs & src_nan_code).cast();
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abs_result = dst_inf_exp.cast();
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abs_result = abs_result.wrapping_shl(dst_sign_bits);
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abs_result |= dst_qnan;
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abs_result |= (nan_result >> (src_sign_bits - dst_sign_bits)) & dst_nan_code;
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} else if a_abs >= src_overflow {
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// a overflows to infinity.
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abs_result = dst_inf_exp.cast();
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abs_result = abs_result.wrapping_shl(dst_sign_bits);
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} else {
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// a underflows on conversion to the destination type or is an exact
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// zero. The result may be a denormal or zero. Extract the exponent
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// to get the shift amount for the denormalization.
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let a_exp = a_abs >> src_sign_bits;
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let mut shift: u32 = a_exp.cast();
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shift = src_exp_bias - dst_exp_bias - shift + 1;
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let significand = (a.repr() & src_sign_mask) | src_min_normal;
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if shift > src_sign_bits {
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abs_result = dst_zero;
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} else {
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let sticky = significand << src_bits - shift;
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let mut denormalized_significand: R::Int = significand.cast();
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let sticky_shift: u32 = sticky.cast();
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denormalized_significand = denormalized_significand >> (shift | sticky_shift);
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abs_result = denormalized_significand >> src_sign_bits - dst_sign_bits;
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let round_bits = denormalized_significand & round_mask.cast();
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if round_bits > half.cast() {
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abs_result += dst_one; // Round to nearest
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} else if round_bits == half.cast() {
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abs_result += abs_result & dst_one; // Ties to even
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}
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}
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}
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// Finally apply the sign bit
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let s = sign >> src_bits - dst_bits;
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R::from_repr(abs_result | s.cast())
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}
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intrinsics! {
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#[aapcs_on_arm]
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#[arm_aeabi_alias = __aeabi_d2f]
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pub extern "C" fn __truncdfsf2(a: f64) -> f32 {
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truncate(a)
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}
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#[cfg(target_arch = "arm")]
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pub extern "C" fn __truncdfsf2vfp(a: f64) -> f32 {
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a as f32
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}
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}
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@ -348,6 +348,24 @@ fn main() {
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"builtins::float::extend::__extendsfdf2vfp(a)");
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"builtins::float::extend::__extendsfdf2vfp(a)");
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}
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}
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// float/truncate.rs
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gen(|a: MyF64| {
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if a.0.is_nan() {
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return None;
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}
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Some(a.0 as f32)
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},
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"builtins::float::truncate::__truncdfsf2(a)");
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if target_arch_arm {
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gen(|a: LargeF64| {
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if a.0.is_nan() {
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return None;
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}
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Some(a.0 as f32)
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},
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"builtins::float::truncate::__truncdfsf2vfp(a)");
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}
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// float/conv.rs
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// float/conv.rs
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gen(|a: MyF64| i64(a.0).ok(),
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gen(|a: MyF64| i64(a.0).ok(),
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"builtins::float::conv::__fixdfdi(a)");
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"builtins::float::conv::__fixdfdi(a)");
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