| /glibc-2.36/math/ |
| D | auto-libm-test-out-sqrt | 1 sqrt 0
2 = sqrt downward binary32 0x0p+0 : 0x0p+0 :
3 = sqrt tonearest binary32 0x0p+0 : 0x0p+0 :
4 = sqrt towardzero binary32 0x0p+0 : 0x0p+0 :
5 = sqrt upward binary32 0x0p+0 : 0x0p+0 :
6 = sqrt downward binary64 0x0p+0 : 0x0p+0 :
7 = sqrt tonearest binary64 0x0p+0 : 0x0p+0 :
8 = sqrt towardzero binary64 0x0p+0 : 0x0p+0 :
9 = sqrt upward binary64 0x0p+0 : 0x0p+0 :
10 = sqrt downward intel96 0x0p+0 : 0x0p+0 :
[all …]
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| D | auto-libm-test-out-narrow-sqrt | 1 sqrt 0
2 = sqrt downward binary32:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
3 = sqrt tonearest binary32:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
4 = sqrt towardzero binary32:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
5 = sqrt upward binary32:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
6 = sqrt downward binary64:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
7 = sqrt tonearest binary64:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
8 = sqrt towardzero binary64:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
9 = sqrt upward binary64:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
10 = sqrt downward intel96:arg_fmt(0,0,0,0) 0x0p+0 : 0x0p+0 :
[all …]
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| D | libm-test-narrow-sqrt.inc | 1 /* Test narrowing sqrt.
23 TEST_a_f (sqrt, arg_qnan_value, qnan_value, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
24 TEST_a_f (sqrt, -arg_qnan_value, qnan_value, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
25 TEST_a_f (sqrt, arg_snan_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION),
26 TEST_a_f (sqrt, -arg_snan_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION),
27 TEST_a_f (sqrt, arg_plus_infty, plus_infty, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
29 /* sqrt (x) == qNaN plus invalid exception for x < 0. */
30 TEST_a_f (sqrt, -1, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
31 TEST_a_f (sqrt, -1.1L, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
32 TEST_a_f (sqrt, -arg_min_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
[all …]
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| D | libm-test-sqrt.inc | 1 /* Test sqrt.
23 TEST_f_f (sqrt, qnan_value, qnan_value, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
24 TEST_f_f (sqrt, -qnan_value, qnan_value, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
25 TEST_f_f (sqrt, snan_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION),
26 TEST_f_f (sqrt, -snan_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION),
27 TEST_f_f (sqrt, plus_infty, plus_infty, NO_INEXACT_EXCEPTION|ERRNO_UNCHANGED),
29 /* sqrt (x) == qNaN plus invalid exception for x < 0. */
30 TEST_f_f (sqrt, -1, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
31 TEST_f_f (sqrt, -1.1L, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
32 TEST_f_f (sqrt, -min_value, qnan_value, NO_INEXACT_EXCEPTION|INVALID_EXCEPTION|ERRNO_EDOM),
[all …]
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| D | w_sqrtl_compat.c | 38 libm_alias_ldouble (__sqrt, sqrt)
39 libm_alias_ldouble_narrow (__sqrt, sqrt)
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| D | w_sqrt_compat.c | 40 libm_alias_double (__sqrt, sqrt)
41 libm_alias_double_narrow (__sqrt, sqrt)
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| D | w_sqrt_template.c | 45 declare_mgen_alias (__sqrt, sqrt)
46 declare_mgen_alias_narrow (__sqrt, sqrt)
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| D | test-tgmath.c | 259 b = sqrt (sqrt (a)); in F()
330 d = sqrt (sqrt (z)); in F()
372 a = sqrt (y); in F()
437 d = sqrt ((const complex TYPE) z); in F()
653 (F(sqrt)) (TYPE x) in TYPE() argument
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| D | auto-libm-test-in | 7585 sqrt 0
7586 sqrt -0
7587 sqrt 2209
7588 sqrt 4
7589 sqrt 2
7590 sqrt 0.25
7591 sqrt 6642.25
7592 sqrt 15190.5625
7593 sqrt 0.75
7594 sqrt 0x1.fffffffffffffp+1023
[all …]
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| D | math-narrow.h | 321 ret = (TYPE) ROUND_TO_ODD (sqrt ## SUFFIX (math_opt_barrier (X)), \
339 ret = (TYPE) (sqrt ## SUFFIX (X)); \
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| /glibc-2.36/sysdeps/ieee754/dbl-64/ |
| D | e_hypot.c | 72 return sqrt (fma (t1, ax, t2 * t2)); in kernel()
74 return sqrt (fma (ax, ax, ay * ay)); in kernel()
77 double h = sqrt (ax * ax + ay * ay); in kernel()
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| D | e_j0.c | 114 z = (invsqrtpi * cc) / sqrt (x); in __ieee754_j0()
118 z = invsqrtpi * (u * cc - v * ss) / sqrt (x); in __ieee754_j0()
205 z = (invsqrtpi * ss) / sqrt (x); in __ieee754_y0()
209 z = invsqrtpi * (u * ss + v * cc) / sqrt (x); in __ieee754_y0()
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| D | e_acosh.c | 54 return __ieee754_log (2.0 * x - one / (x + sqrt (t - one))); in __ieee754_acosh()
60 return __log1p (t + sqrt (2.0 * t + t * t)); in __ieee754_acosh()
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| D | s_asinh.c | 59 w = __ieee754_log (2.0 * xa + one / (sqrt (xa * xa + one) + in __asinh()
65 w = __log1p (xa + t / (one + sqrt (one + t))); in __asinh()
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| D | e_j1.c | 118 z = (invsqrtpi * cc) / sqrt (y); in __ieee754_j1()
122 z = invsqrtpi * (u * cc - v * ss) / sqrt (y); in __ieee754_j1()
209 z = (invsqrtpi * ss) / sqrt (x); in __ieee754_y1()
213 z = invsqrtpi * (u * ss + v * cc) / sqrt (x); in __ieee754_y1()
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| /glibc-2.36/sysdeps/ia64/fpu/ |
| D | e_sqrt.S | 99 GLOBAL_IEEE754_ENTRY(sqrt)
253 GLOBAL_IEEE754_END(sqrt)
254 libm_alias_double_other (__sqrt, sqrt)
255 libm_alias_double_narrow (__sqrt, sqrt)
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| D | libm_cpu_defs.h | 58 extern double sqrt(double);
62 extern double sqrt(double);
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| /glibc-2.36/math/bits/ |
| D | mathcalls-narrow.h | 36 __MATHCALL_NARROW (__MATHCALL_NAME (sqrt), __MATHCALL_REDIR_NAME2 (sqrt), 1);
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| /glibc-2.36/sysdeps/powerpc/fpu/ |
| D | t_sqrt.c | 128 double ls = sqrt(mval*eval);
129 double hs = sqrt((mval+1/512.0)*eval);
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| /glibc-2.36/sysdeps/ieee754/ldbl-opt/ |
| D | nldbl-sqrt.c | 7 return sqrt (x); in sqrtl()
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| D | nldbl-dsqrt.c | 27 return sqrt (x); in dsqrtl()
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| /glibc-2.36/sysdeps/ieee754/ldbl-128ibm/ |
| D | s_dsqrtl.c | 28 libm_alias_double_ldouble (sqrt)
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| D | s_fsqrtl.c | 28 libm_alias_float_ldouble (sqrt)
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| /glibc-2.36/sysdeps/ieee754/ldbl-96/ |
| D | s_fsqrtl.c | 31 libm_alias_float_ldouble (sqrt)
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| /glibc-2.36/sysdeps/ieee754/ldbl-128/ |
| D | s_f64xsqrtf128.c | 35 libm_alias_float64x_float128 (sqrt)
|