.file "libm_frexpf.s"
// Copyright (c) 2000 - 2003, Intel Corporation
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//
// Contributed 2000 by the Intel Numerics Group, Intel Corporation
//
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//
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// http://www.intel.com/software/products/opensource/libraries/num.htm.
//
// History
//==============================================================
// 02/02/00 Initial version
// 03/20/00 Improved speed
// 06/01/00 Fixed bug when x a double-extended denormal
// 12/08/00 Corrected label on .endp
// 01/23/02 Added handling for int 32 or 64 bits
// 05/20/02 Cleaned up namespace and sf0 syntax
// 02/10/03 Reordered header: .section, .global, .proc, .align
//
// API
//==============================================================
// float __libm_frexpf(float x, int* y, int int_type)
// input floating point f8, pointer to y (r33), int int_type (r34)
// output floating point f8, returns the fraction of x, 0.5 <= fraction < 1.0
// output int* y, returns the true exponent of x
//
// int_type = 0 if int is 32 bits
// int_type = 1 if int is 64 bits
//
// int* y is returned as a 32 bit integer if int_type = 0
// int* y is returned as a 64 bit integer if int_type = 1
//
// Overview of operation
//==============================================================
// break a floating point x number into fraction and an exponent
// The fraction is returned as a float
// The exponent is returned as an integer pointed to by y
// This is a true (not a biased exponent) but 0fffe is subtracted
// as a bias instead of 0xffff. This is because the fraction returned
// is between 0.5 and 1.0, not the expected IEEE range.
//
// The fraction is 0.5 <= fraction < 1.0
//
// Registers used
//==============================================================
//
// general registers:
// r14 exponent bias for x negative
// r15 exponent bias for x positive
// r16 signexp of x
// r17 exponent mask
// r18 exponent of x
// r19 exponent result
// r20 signexp of 2^64
// r32 on input contains the 32-bit IEEE float that is in f8
// r33 on input pointer to 32-bit or 64-bit integer for exponent
// r34 on input contains 0 if output int is 32 bits, else output int is 64 bits
//
// predicate registers:
// p6 set if x is Nan, zero, or infinity
// p7 set if x negative
// p8 set if x positive
// p9 set if x double-extended denormal
// p10 set if int_type = 0, 32-bit integer
// p11 set if int_type = 1, 64-bit integer
//
// floating-point registers:
// f8 input, output
// f9 normalized x
// f10 signexp for significand result for x positive
// f11 signexp for significand result for x negative
// f12 2^64
.section .text
GLOBAL_LIBM_ENTRY(__libm_frexpf)
// Set signexp for significand result for x>0
// If x is a NaN, zero, or infinity, return it.
// Put 0 in the int pointer.
// x NAN, ZERO, INFINITY?
// Set signexp for significand result for x<0
{ .mfi
mov r15 = 0x0fffe
fclass.m p6,p7 = f8, 0xe7
mov r14 = 0x2fffe
}
// Form signexp of 2^64 in case x double-extended denormal
// Save the normalized value of input in f9
// The normalization also sets fault flags and takes faults if necessary
{ .mfi
mov r20 = 0x1003f
fnorm.s0 f9 = f8
nop.i 999 ;;
}
// Move signexp for significand result for x>0 to FP reg
// Form 2^64 in case x double-extended denormal
{ .mmi
setf.exp f10 = r15
setf.exp f12 = r20
nop.i 999 ;;
}
// Move signexp for significand result for x<0 to FP reg
// p7 if x<0, else p8
// If x=0,nan,inf, set p10 if output int to be 32 bits, or set p11 if 64 bits
{ .mfi
setf.exp f11 = r14
(p7) fcmp.lt.s0 p7,p8 = f8,f0
(p6) cmp.eq.unc p10,p11 = r34, r0 ;;
}
// If x NAN, ZERO, INFINITY, set *y=0 and exit
{ .mmb
(p10) st4 [r33] = r0 // Store *y=0 as 32-bit integer
(p11) st8 [r33] = r0 // Store *y=0 as 64-bit integer
(p6) br.ret.spnt b0 ;;
}
// Form exponent mask
// Test for fnorm(x) denormal, means x double-extended denormal
{ .mfi
mov r17 = 0x1ffff
fclass.m p9,p0 = f9, 0x0b
nop.i 999 ;;
}
// If x double-extended denormal add 64 to exponent bias for scaling
// If x double-extended denormal multiply x * 2^64 which is normal
// Set p10 if output int to be 32 bits, or set p11 if 64 bits
{ .mfi
(p9) add r15 = 64, r15
(p9) fmpy.s0 f9 = f9, f12
cmp.eq p10,p11 = r34, r0 ;;
}
// true exponent stored to int pointer
// the bias is treated as 0xfffe instead of
// normal 0xffff because we want the significand
// to be in the range <=0.5 sig < 1.0
// Store the value of the exponent at the pointer in r33
// If x>0 form significand result
{ .mfi
nop.m 999
(p8) fmerge.se f8 = f10,f9
nop.i 999 ;;
}
// Get signexp of normalized x
// If x<0 form significand result
{ .mfi
getf.exp r16 = f9
(p7) fmerge.se f8 = f11,f9
nop.i 999 ;;
}
// Get exp of normalized x
// Subtract off bias to get true exponent of x
{ .mmi
and r18 = r17,r16 ;;
sub r19 = r18,r15
nop.i 999 ;;
}
// Store int *y as a 32-bit integer
// Make the value a float
{ .mfi
(p10) st4 [r33] = r19 // Store *y as 32-bit integer
fnorm.s.s0 f8 = f8
nop.i 999
}
{ .mfb
(p11) st8 [r33] = r19 // Store *y as 64-bit integer
nop.f 999
br.ret.sptk b0 ;;
}
GLOBAL_LIBM_END(__libm_frexpf)