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| #include "src/__support/FPUtil/FPBits.h" |
| #include "src/__support/FPUtil/double_double.h" |
| #include "src/__support/FPUtil/multiply_add.h" |
| #include "src/__support/FPUtil/nearest_integer.h" |
| #include "src/__support/FPUtil/rounding_mode.h" |
| #include "src/__support/macros/config.h" |
| #include "src/__support/macros/optimization.h" |
| #include "src/math/atan2f.h" |
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| namespace LIBC_NAMESPACE_DECL { |
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| namespace { |
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| using FloatFloat = fputil::FloatFloat; |
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| constexpr FloatFloat ATAN_I[17] = { |
| {0.0f, 0.0f}, |
| {-0x1.1a6042p-30f, 0x1.ff55bcp-5f}, |
| {-0x1.54f424p-30f, 0x1.fd5baap-4f}, |
| {0x1.79cb6p-28f, 0x1.7b97b4p-3f}, |
| {-0x1.b4dfc8p-29f, 0x1.f5b76p-3f}, |
| {-0x1.1f0286p-27f, 0x1.362774p-2f}, |
| {0x1.e4defp-30f, 0x1.6f6194p-2f}, |
| {0x1.e611fep-29f, 0x1.a64eecp-2f}, |
| {0x1.586ed4p-28f, 0x1.dac67p-2f}, |
| {-0x1.6499e6p-26f, 0x1.0657eap-1f}, |
| {0x1.7bdfd6p-26f, 0x1.1e00bap-1f}, |
| {-0x1.98e422p-28f, 0x1.345f02p-1f}, |
| {0x1.934f7p-28f, 0x1.4978fap-1f}, |
| {0x1.c5a6c6p-27f, 0x1.5d5898p-1f}, |
| {0x1.5e118cp-27f, 0x1.700a7cp-1f}, |
| {-0x1.1d4eb6p-26f, 0x1.819d0cp-1f}, |
| {-0x1.777a5cp-26f, 0x1.921fb6p-1f}, |
| }; |
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| FloatFloat atan_eval(const FloatFloat &x) { |
| FloatFloat p; |
| p.hi = x.hi; |
| float x_hi_sq = x.hi * x.hi; |
| |
| float c0 = -0x1.555556p-2f * x_hi_sq; |
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| float c1 = fputil::multiply_add(x_hi_sq, -x.lo, x.lo); |
| |
| p.lo = fputil::multiply_add(x.hi, c0, c1); |
| return p; |
| } |
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| } |
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| LLVM_LIBC_FUNCTION(float, atan2f, (float y, float x)) { |
| using FPBits = typename fputil::FPBits<float>; |
| constexpr float IS_NEG[2] = {1.0f, -1.0f}; |
| constexpr FloatFloat ZERO = {0.0f, 0.0f}; |
| constexpr FloatFloat MZERO = {-0.0f, -0.0f}; |
| constexpr FloatFloat PI = {-0x1.777a5cp-24f, 0x1.921fb6p1f}; |
| constexpr FloatFloat MPI = {0x1.777a5cp-24f, -0x1.921fb6p1f}; |
| constexpr FloatFloat PI_OVER_4 = {-0x1.777a5cp-26f, 0x1.921fb6p-1f}; |
| constexpr FloatFloat PI_OVER_2 = {-0x1.777a5cp-25f, 0x1.921fb6p0f}; |
| constexpr FloatFloat MPI_OVER_2 = {-0x1.777a5cp-25f, 0x1.921fb6p0f}; |
| constexpr FloatFloat THREE_PI_OVER_4 = {-0x1.99bc5cp-28f, 0x1.2d97c8p1f}; |
| |
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| constexpr FloatFloat CONST_ADJ[2][2][2] = { |
| {{ZERO, MPI_OVER_2}, {MZERO, MPI_OVER_2}}, |
| {{MPI, PI_OVER_2}, {MPI, PI_OVER_2}}}; |
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| FPBits x_bits(x), y_bits(y); |
| bool x_sign = x_bits.sign().is_neg(); |
| bool y_sign = y_bits.sign().is_neg(); |
| x_bits = x_bits.abs(); |
| y_bits = y_bits.abs(); |
| uint32_t x_abs = x_bits.uintval(); |
| uint32_t y_abs = y_bits.uintval(); |
| bool recip = x_abs < y_abs; |
| uint32_t min_abs = recip ? x_abs : y_abs; |
| uint32_t max_abs = !recip ? x_abs : y_abs; |
| auto min_exp = static_cast<unsigned>(min_abs >> FPBits::FRACTION_LEN); |
| auto max_exp = static_cast<unsigned>(max_abs >> FPBits::FRACTION_LEN); |
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| float num = FPBits(min_abs).get_val(); |
| float den = FPBits(max_abs).get_val(); |
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| if (LIBC_UNLIKELY(max_exp > 0xffU - 64U || min_exp < 64U)) { |
| if (x_bits.is_nan() || y_bits.is_nan()) |
| return FPBits::quiet_nan().get_val(); |
| unsigned x_except = x == 0.0f ? 0 : (FPBits(x_abs).is_inf() ? 2 : 1); |
| unsigned y_except = y == 0.0f ? 0 : (FPBits(y_abs).is_inf() ? 2 : 1); |
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| constexpr FloatFloat EXCEPTS[3][3][2] = { |
| {{ZERO, PI}, {ZERO, PI}, {ZERO, PI}}, |
| {{PI_OVER_2, PI_OVER_2}, {ZERO, ZERO}, {ZERO, PI}}, |
| {{PI_OVER_2, PI_OVER_2}, |
| {PI_OVER_2, PI_OVER_2}, |
| {PI_OVER_4, THREE_PI_OVER_4}}, |
| }; |
|
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| if ((x_except != 1) || (y_except != 1)) { |
| FloatFloat r = EXCEPTS[y_except][x_except][x_sign]; |
| return fputil::multiply_add(IS_NEG[y_sign], r.hi, IS_NEG[y_sign] * r.lo); |
| } |
| bool scale_up = min_exp < 64U; |
| bool scale_down = max_exp > 0xffU - 64U; |
| |
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| if (scale_up) { |
| num *= 0x1.0p32f; |
| if (!scale_down) |
| den *= 0x1.0p32f; |
| } else if (scale_down) { |
| den *= 0x1.0p-32f; |
| num *= 0x1.0p-32f; |
| } |
|
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| min_abs = FPBits(num).uintval(); |
| max_abs = FPBits(den).uintval(); |
| min_exp = static_cast<unsigned>(min_abs >> FPBits::FRACTION_LEN); |
| max_exp = static_cast<unsigned>(max_abs >> FPBits::FRACTION_LEN); |
| } |
|
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| float final_sign = IS_NEG[(x_sign != y_sign) != recip]; |
| FloatFloat const_term = CONST_ADJ[x_sign][y_sign][recip]; |
| unsigned exp_diff = max_exp - min_exp; |
| |
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| if (LIBC_UNLIKELY(exp_diff > 25)) |
| return fputil::multiply_add(final_sign, const_term.hi, |
| final_sign * (const_term.lo + num / den)); |
|
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| float k = fputil::nearest_integer(16.0f * num / den); |
| unsigned idx = static_cast<unsigned>(k); |
| |
| k *= 0x1.0p-4f; |
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| FloatFloat num_k = fputil::exact_mult(num, k); |
| FloatFloat den_k = fputil::exact_mult(den, k); |
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| FloatFloat num_ff = fputil::exact_add(num - den_k.hi, -den_k.lo); |
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| FloatFloat den_ff = fputil::exact_add(den, num_k.hi); |
| den_ff.lo += num_k.lo; |
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| FloatFloat q = fputil::div(num_ff, den_ff); |
| |
| FloatFloat p = atan_eval(q); |
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| FloatFloat r = fputil::add(const_term, fputil::add(ATAN_I[idx], p)); |
| return final_sign * r.hi; |
| } |
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| } |
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