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| H A D | catanf.c | 52 x = F_RE(z); in catanf()
63 F_RE(ans) = pi_2; in catanf()
66 F_RE(ans) = x * x; in catanf()
74 F_RE(ans) = pi_2; in catanf()
77 F_RE(ans) = (fabsf(x) - ax) / (fabsf(x) - ax); in catanf()
97 F_RE(ans) = zero; in catanf()
100 F_RE(ans) = pi_2; in catanf()
103 F_RE(ans) = zero; in catanf()
123 F_RE(ans) = (float)(0.5 * atan2(dx + dx, in catanf()
134 F_RE(ans) = -F_RE(ans); in catanf()
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| H A D | csinhf.c | 47 x = F_RE(z); in csinhf()
61 F_RE(ans) = x; in csinhf()
64 F_RE(ans) = x; in csinhf()
67 F_RE(ans) = C * x; in csinhf()
76 F_RE(ans) = (float)scalbn(C * t, n - 1); in csinhf()
85 F_RE(ans) = C * t; in csinhf()
90 F_RE(ans) = zero; in csinhf()
93 F_RE(ans) = C * sinhf(x); in csinhf()
98 F_RE(ans) = -F_RE(ans); in csinhf()
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| H A D | ctanhf.c | 45 x = F_RE(z); in ctanhf()
55 F_RE(ans) = tanhf(x); in ctanhf()
59 F_RE(ans) = F_IM(ans) = y - y; in ctanhf()
61 F_RE(ans) = one; in ctanhf()
64 F_RE(ans) = x + y; in ctanhf()
72 F_RE(ans) = one; in ctanhf()
82 F_RE(ans) = F_IM(ans) = x + y; in ctanhf()
107 F_RE(ans) = (u + two * t) * v; in ctanhf()
111 F_RE(ans) = -F_RE(ans); in ctanhf()
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| H A D | csqrtf.c | 46 x = F_RE(z); in csqrtf()
57 F_IM(ans) = F_RE(ans) = ay; in csqrtf()
60 F_RE(ans) = ax; in csqrtf()
63 F_RE(ans) = ay * zero; in csqrtf()
67 F_IM(ans) = F_RE(ans) = ax + ay; in csqrtf()
70 F_RE(ans) = sqrtf(ax); in csqrtf()
74 F_RE(ans) = zero; in csqrtf()
83 F_RE(ans) = t; in csqrtf()
87 F_RE(ans) = w; in csqrtf()
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| H A D | clogf.c | 45 x = F_RE(z); in clogf()
57 F_RE(ans) = ay; in clogf()
59 F_RE(ans) = ax; in clogf()
61 F_RE(ans) = ax + ay; in clogf()
69 F_RE(ans) = (float)(0.5 * log1p(dy * dy)); in clogf()
71 F_RE(ans) = (float)(0.5 * log1p(dx * dx)); in clogf()
73 F_RE(ans) = -1.0f / ax; in clogf()
75 F_RE(ans) = (float)(0.5 * log(dx * dx + dy * dy)); in clogf()
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| H A D | cexpf.c | 47 x = F_RE(z); in cexpf()
54 F_RE(ans) = expf(x); in cexpf()
59 F_RE(ans) = zero; in cexpf()
63 F_RE(ans) = zero * c; in cexpf()
68 F_RE(ans) = x; in cexpf()
72 F_RE(ans) = x * c; in cexpf()
83 F_RE(ans) = (float)scalbn(t * (double)c, n); in cexpf()
91 F_RE(ans) = t * c; in cexpf()
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| H A D | ccoshf.c | 47 x = F_RE(z); in ccoshf()
61 F_RE(ans) = x; in ccoshf()
64 F_RE(ans) = x; in ccoshf()
67 F_RE(ans) = C * x; in ccoshf()
76 F_RE(ans) = (float)scalbn(C * w, n - 1); in ccoshf()
85 F_RE(ans) = C * t; in ccoshf()
90 F_RE(ans) = C; in ccoshf()
93 F_RE(ans) = C * coshf(x); in ccoshf()
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| H A D | cpowf.c | 60 x = F_RE(z); in cpowf()
62 u = F_RE(w); in cpowf()
76 F_RE(ans) = x; in cpowf()
79 F_RE(ans) = one; in cpowf()
87 F_RE(ans) = (c == zero)? c: c * t; in cpowf()
90 F_RE(ans) = powf(x, u); in cpowf()
94 F_RE(ans) = F_IM(ans) = x + y + u; in cpowf()
101 F_RE(ans) = (c == zero)? c: c * v; in cpowf()
115 F_RE(ans) = (float)(dr * dc); in cpowf()
132 F_RE(ans) = F_IM(ans) = t - t; in cpowf()
[all …]
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| H A D | casinhf.c | 39 F_RE(w) = -F_IM(z); in casinhf()
40 F_IM(w) = F_RE(z); in casinhf()
42 F_RE(ans) = F_IM(r); in casinhf()
43 F_IM(ans) = -F_RE(r); in casinhf()
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| H A D | catanhf.c | 40 x = F_RE(z); in catanhf()
42 F_RE(z) = -y; in catanhf()
45 F_RE(ans) = F_IM(ct); in catanhf()
46 F_IM(ans) = -F_RE(ct); in catanhf()
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| H A D | csinf.c | 40 x = F_RE(z); in csinf()
42 F_RE(z) = y; in csinf()
45 F_RE(ans) = -F_IM(ct); in csinf()
46 F_IM(ans) = F_RE(ct); in csinf()
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| H A D | ctanf.c | 40 x = F_RE(z); in ctanf()
42 F_RE(z) = y; in ctanf()
45 F_RE(ans) = -F_IM(ct); in ctanf()
46 F_IM(ans) = F_RE(ct); in ctanf()
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| H A D | cprojf.c | 44 x = F_RE(z); in cprojf()
51 F_RE(z) = fabsf(y); in cprojf()
54 F_RE(z) = fabsf(x); in cprojf()
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| H A D | ccosf.c | 39 x = F_RE(z); in ccosf()
41 F_RE(z) = y; in ccosf()
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| H A D | cacosf.c | 40 D_RE(dz) = (double) (F_RE(z)); in cacosf()
43 F_RE(ans) = (float) (D_RE(dans)); in cacosf()
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| H A D | cacoshf.c | 42 D_RE(dz) = (double) (F_RE(z)); in cacoshf()
45 F_RE(ans) = (float) (D_RE(dans)); in cacoshf()
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| H A D | casinf.c | 40 D_RE(dz) = (double) (F_RE(z)); in casinf()
43 F_RE(ans) = (float) (D_RE(dans)); in casinf()
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| H A D | complex_wrapper.h | 39 #define F_RE(x) __real__ x macro
54 #define F_RE(__z) _X_RE(float, __z) macro
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| H A D | crealf.c | 37 return (F_RE(z)); in crealf()
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| H A D | cabsf.c | 37 return (hypotf(F_RE(z), F_IM(z))); in cabsf()
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| H A D | cargf.c | 37 return (atan2f(F_IM(z), F_RE(z))); in cargf()
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