ref: 3c881e8b133876fc8cff92106616bb93166bf113
dir: /lib/math/fpmath.myr/
use std pkg math = trait fpmath @f = /* fpmath-fma-impl */ fma : (x : @f, y : @f, z : @f -> @f) /* fpmath-trunc-impl */ trunc : (f : @f -> @f) ceil : (f : @f -> @f) floor : (f : @f -> @f) /* fpmath-sum-impl */ kahan_sum : (a : @f[:] -> @f) priest_sum : (a : @f[:] -> @f) ;; impl std.equatable flt32 impl std.equatable flt64 impl fpmath flt32 impl fpmath flt64 ;; /* We consider two floating-point numbers equal if their bits are equal. This does not treat NaNs specially: two distinct NaNs may compare equal, or they may compare distinct (if they arise from different bit patterns). Additionally, +0.0 and -0.0 compare differently. */ impl std.equatable flt32 = eq = {a : flt32, b : flt32; -> std.flt32bits(a) == std.flt32bits(b)} ;; impl std.equatable flt64 = eq = {a : flt64, b : flt64; -> std.flt64bits(a) == std.flt64bits(b)} ;; impl fpmath flt32 = fma = {x, y, z; -> fma32(x, y, z)} trunc = {f; -> trunc32(f)} floor = {f; -> floor32(f)} ceil = {f; -> ceil32(f)} kahan_sum = {l; -> kahan_sum32(l) } priest_sum = {l; -> priest_sum32(l) } ;; impl fpmath flt64 = fma = {x, y, z; -> fma64(x, y, z)} trunc = {f; -> trunc64(f)} floor = {f; -> floor64(f)} ceil = {f; -> ceil64(f)} kahan_sum = {l; -> kahan_sum64(l) } priest_sum = {l; -> priest_sum64(l) } ;; extern const fma32 : (x : flt32, y : flt32, z : flt32 -> flt32) extern const fma64 : (x : flt64, y : flt64, z : flt64 -> flt64) extern const trunc32 : (f : flt32 -> flt32) extern const floor32 : (f : flt32 -> flt32) extern const ceil32 : (f : flt32 -> flt32) extern const trunc64 : (f : flt64 -> flt64) extern const floor64 : (f : flt64 -> flt64) extern const ceil64 : (f : flt64 -> flt64) extern const kahan_sum32 : (l : flt32[:] -> flt32) extern const priest_sum32 : (l : flt32[:] -> flt32) extern const kahan_sum64 : (l : flt64[:] -> flt64) extern const priest_sum64 : (l : flt64[:] -> flt64)