/dports/lang/voc/voc-63008f6/src/test/confidence/math/ |
H A D | expected | 146 Math.arccos(1.00000E+00): -0.0000E+00. MathL.arccos(1.00000000000000D+000): 0.00000000000000D+000 147 Math.arccos(1.40000E+00): 3.40282E+38. MathL.arccos(1.40000000000000D+000): 1.79769296342094D+308 148 Math.arccos(1.50000E+00): 3.40282E+38. MathL.arccos(1.50000000000000D+000): 1.79769296342094D+308 149 Math.arccos(1.60000E+00): 3.40282E+38. MathL.arccos(1.60000000000000D+000): 1.79769296342094D+308 150 Math.arccos(1.90000E+00): 3.40282E+38. MathL.arccos(1.90000000000000D+000): 1.79769296342094D+308 151 Math.arccos(2.00000E+00): 3.40282E+38. MathL.arccos(2.00000000000000D+000): 1.79769296342094D+308 152 Math.arccos(2.40000E+00): 3.40282E+38. MathL.arccos(2.40000000000000D+000): 1.79769296342094D+308 153 Math.arccos(2.50000E+00): 3.40282E+38. MathL.arccos(2.50000000000000D+000): 1.79769296342094D+308 154 Math.arccos(3.00000E+00): 3.40282E+38. MathL.arccos(3.00000000000000D+000): 1.79769296342094D+308 155 Math.arccos(4.00000E+00): 3.40282E+38. MathL.arccos(4.00000000000000D+000): 1.79769296342094D+308 [all …]
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/dports/lang/pocl/pocl-1.8/lib/kernel/ocml/src/ |
H A D | acospiH.cl | 15 // Computes arccos(x). 16 // The argument is first reduced by noting that arccos(x) 17 // is invalid for abs(x) > 1 and arccos(-x) = arccos(x). 18 // For denormal and small arguments arccos(x) = pi/2 to machine 21 // arccos(x) = pi/2 - arcsin(x) 26 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acosH.cl | 15 // Computes arccos(x). 16 // The argument is first reduced by noting that arccos(x) 17 // is invalid for abs(x) > 1 and arccos(-x) = arccos(x). 18 // For denormal and small arguments arccos(x) = pi/2 to machine 21 // arccos(x) = pi/2 - arcsin(x) 26 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acosF.cl | 13 // Computes arccos(x). 14 // The argument is first reduced by noting that arccos(x) 15 // is invalid for abs(x) > 1 and arccos(-x) = arccos(x). 16 // For denormal and small arguments arccos(x) = pi/2 to machine 19 // arccos(x) = pi/2 - arcsin(x) 24 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acosD.cl | 16 // Computes arccos(x). 17 // The argument is first reduced by noting that arccos(x) 19 // arguments arccos(x) = pi/2 to machine accuracy. 22 // arccos(x) = pi/2 - arcsin(x) 27 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospiD.cl | 16 // Computes arccos(x). 17 // The argument is first reduced by noting that arccos(x) 19 // arguments arccos(x) = pi/2 to machine accuracy. 22 // arccos(x) = pi/2 - arcsin(x) 27 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/misc/lifelines/lifelines-3.1.1/reports/st/ |
H A D | trigtest.ll | 62 print(f(value1), "\t", f(arcsin(value1)), "\t", f(arccos(value1)), "\t", f(arctan(value1)), nl()) 63 print(f(value2), "\t", f(arcsin(value2)), "\t", f(arccos(value2)), "\t", f(arctan(value2)), nl()) 64 print(f(value3), "\t", f(arcsin(value3)), "\t", f(arccos(value3)), "\t", f(arctan(value3)), nl()) 65 print(f(value4), "\t", f(arcsin(value4)), "\t", f(arccos(value4)), "\t", f(arctan(value4)), nl()) 66 print(f(value5), "\t", f(arcsin(value5)), "\t", f(arccos(value5)), "\t", f(arctan(value5)), nl()) 67 print(f(value6), "\t", f(arcsin(value6)), "\t", f(arccos(value6)), "\t", f(arctan(value6)), nl()) 68 print(f(value7), "\t", f(arcsin(value7)), "\t", f(arccos(value7)), "\t", f(arctan(value7)), nl()) 78 …print(f(angle1), "\t\t", f(arcsin(sin(angle1))), "\t\t", f(arccos(cos(angle1))), "\t\t", f(a… 79 …print(f(angle2), "\t\t", f(arcsin(sin(angle2))), "\t\t", f(arccos(cos(angle2))), "\t\t", f(a… 80 …print(f(angle3a), "\t\t", f(arcsin(sin(angle3a))), "\t\t", f(arccos(cos(angle3a))), "\t\t", f(a… [all …]
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/dports/science/py-pyscf/pyscf-2.0.1/pyscf/symm/ |
H A D | Dmatrix.py | 144 beta = numpy.arccos(zz) 152 alpha = numpy.arccos(yy) 156 gamma = numpy.arccos(yp.dot(c2[1])) 167 gamma = -numpy.arccos(c1[0] / xy_norm) 173 alpha = numpy.arccos(c2[0] / xy_norm) 177 beta = numpy.arccos(c2[2]/norm1) - numpy.arccos(c1[2]/norm2)
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/dports/devel/llvm-cheri/llvm-project-37c49ff00e3eadce5d8703fdc4497f28458c64a8/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/wasi-libcxx/llvm-project-13.0.1.src/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/llvm12/llvm-project-12.0.1.src/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/llvm-devel/llvm-project-f05c95f10fc1d8171071735af8ad3a9e87633120/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/libclc/libclc-12.0.1.src/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/wasi-compiler-rt13/llvm-project-13.0.1.src/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/wasi-compiler-rt12/llvm-project-12.0.1.src/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/www/chromium-legacy/chromium-88.0.4324.182/third_party/llvm/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/devel/llvm13/llvm-project-13.0.1.src/libclc/generic/lib/math/ |
H A D | acos.cl | 28 // Computes arccos(x). 29 // The argument is first reduced by noting that arccos(x) 31 // arguments arccos(x) = pi/2 to machine accuracy. 34 // arccos(x) = pi/2 - arcsin(x) 39 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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/dports/comms/cqrlog/cqrlog-2.5.0/src/ |
H A D | ah_math.pas | 16 function arccos(x:extended):extended; in arccos() function 78 function arccos(x:extended):extended; in arccos() function 103 function arccos(x:extended):extended; in arccos() function 105 result:=math.arccos(x); 144 result:=rad2deg(arccos(x));
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/dports/devel/tinygo/tinygo-0.14.1/llvm-project/libclc/generic/lib/math/ |
H A D | acospi.cl | 29 // Computes arccos(x). 30 // The argument is first reduced by noting that arccos(x) 32 // arguments arccos(x) = pi/2 to machine accuracy. 35 // arccos(x) = pi/2 - arcsin(x) 40 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2) 97 // Computes arccos(x). 98 // The argument is first reduced by noting that arccos(x) 100 // arguments arccos(x) = pi/2 to machine accuracy. 103 // arccos(x) = pi/2 - arcsin(x) 108 // arccos(x) = pi - 2*arcsin(sqrt(1-x)/2)
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