[Libclc-dev] [PATCH 2/4] pown: Port from amd_builtins
Aaron Watry via Libclc-dev
libclc-dev at lists.llvm.org
Wed Jan 17 04:58:48 PST 2018
Was there a patch 1 for this series? Patch 2 doesn't apply cleanly as-
is on top of current HEAD/trunk/tip/whatever.
--Aaron
On Mon, 2018-01-15 at 19:47 -0500, Jan Vesely via Libclc-dev wrote:
> Passes piglit on turks and carrizo
> fp64 passes CTS on carrizo
>
> Signed-off-by: Jan Vesely <jan.vesely at rutgers.edu>
> ---
> fp32 cts failure on carrizo is denormal related
>
> generic/include/clc/math/pown.h | 27 +--
> generic/include/clc/math/pown.inc | 1 +
> generic/include/math/clc_pown.h | 3 +
> generic/include/math/clc_pown.inc | 1 +
> generic/lib/SOURCES | 1 +
> generic/lib/math/clc_pown.cl | 378
> ++++++++++++++++++++++++++++++++++++++
> generic/lib/math/pown.cl | 10 +-
> generic/lib/math/pown.inc | 3 +
> 8 files changed, 393 insertions(+), 31 deletions(-)
> create mode 100644 generic/include/clc/math/pown.inc
> create mode 100644 generic/include/math/clc_pown.h
> create mode 100644 generic/include/math/clc_pown.inc
> create mode 100644 generic/lib/math/clc_pown.cl
> create mode 100644 generic/lib/math/pown.inc
>
> diff --git a/generic/include/clc/math/pown.h
> b/generic/include/clc/math/pown.h
> index bdbf50c..2ed8a6e 100644
> --- a/generic/include/clc/math/pown.h
> +++ b/generic/include/clc/math/pown.h
> @@ -1,24 +1,3 @@
> -#define _CLC_POWN_INTRINSIC "llvm.powi"
> -
> -#define _CLC_POWN_DECL(GENTYPE, INTTYPE) \
> - _CLC_OVERLOAD _CLC_DECL GENTYPE pown(GENTYPE x, INTTYPE y);
> -
> -#define _CLC_VECTOR_POWN_DECL(GENTYPE, INTTYPE) \
> - _CLC_POWN_DECL(GENTYPE##2, INTTYPE##2) \
> - _CLC_POWN_DECL(GENTYPE##3, INTTYPE##3) \
> - _CLC_POWN_DECL(GENTYPE##4, INTTYPE##4) \
> - _CLC_POWN_DECL(GENTYPE##8, INTTYPE##8) \
> - _CLC_POWN_DECL(GENTYPE##16, INTTYPE##16)
> -
> -_CLC_OVERLOAD float pown(float x, int y) __asm(_CLC_POWN_INTRINSIC
> ".f32");
> -
> -_CLC_VECTOR_POWN_DECL(float, int)
> -
> -#ifdef cl_khr_fp64
> -_CLC_OVERLOAD double pown(double x, int y) __asm(_CLC_POWN_INTRINSIC
> ".f64");
> -_CLC_VECTOR_POWN_DECL(double, int)
> -#endif
> -
> -#undef _CLC_POWN_INTRINSIC
> -#undef _CLC_POWN_DECL
> -#undef _CLC_VECTOR_POWN_DECL
> +#define __CLC_BODY <clc/math/pown.inc>
> +#include <clc/math/gentype.inc>
> +#undef __CLC_BODY
> diff --git a/generic/include/clc/math/pown.inc
> b/generic/include/clc/math/pown.inc
> new file mode 100644
> index 0000000..cf0be4c
> --- /dev/null
> +++ b/generic/include/clc/math/pown.inc
> @@ -0,0 +1 @@
> +_CLC_OVERLOAD _CLC_DECL __CLC_GENTYPE pown(__CLC_GENTYPE a,
> __CLC_INTN b);
> diff --git a/generic/include/math/clc_pown.h
> b/generic/include/math/clc_pown.h
> new file mode 100644
> index 0000000..222c1dd
> --- /dev/null
> +++ b/generic/include/math/clc_pown.h
> @@ -0,0 +1,3 @@
> +#define __CLC_BODY <math/clc_pown.inc>
> +#include <clc/math/gentype.inc>
> +#undef __CLC_BODY
> diff --git a/generic/include/math/clc_pown.inc
> b/generic/include/math/clc_pown.inc
> new file mode 100644
> index 0000000..168cd8e
> --- /dev/null
> +++ b/generic/include/math/clc_pown.inc
> @@ -0,0 +1 @@
> +_CLC_OVERLOAD _CLC_DECL __CLC_GENTYPE __clc_pown(__CLC_GENTYPE a,
> __CLC_INTN b);
> diff --git a/generic/lib/SOURCES b/generic/lib/SOURCES
> index a2d8c70..e4bd381 100644
> --- a/generic/lib/SOURCES
> +++ b/generic/lib/SOURCES
> @@ -153,6 +153,7 @@ math/clc_nextafter.cl
> math/nextafter.cl
> math/clc_pow.cl
> math/pow.cl
> +math/clc_pown.cl
> math/pown.cl
> math/sin.cl
> math/sincos.cl
> diff --git a/generic/lib/math/clc_pown.cl
> b/generic/lib/math/clc_pown.cl
> new file mode 100644
> index 0000000..12c77a2
> --- /dev/null
> +++ b/generic/lib/math/clc_pown.cl
> @@ -0,0 +1,378 @@
> +/*
> + * Copyright (c) 2014 Advanced Micro Devices, Inc.
> + *
> + * Permission is hereby granted, free of charge, to any person
> obtaining a copy
> + * of this software and associated documentation files (the
> "Software"), to deal
> + * in the Software without restriction, including without limitation
> the rights
> + * to use, copy, modify, merge, publish, distribute, sublicense,
> and/or sell
> + * copies of the Software, and to permit persons to whom the
> Software is
> + * furnished to do so, subject to the following conditions:
> + *
> + * The above copyright notice and this permission notice shall be
> included in
> + * all copies or substantial portions of the Software.
> + *
> + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
> EXPRESS OR
> + * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
> MERCHANTABILITY,
> + * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT
> SHALL THE
> + * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
> OTHER
> + * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
> ARISING FROM,
> + * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
> DEALINGS IN
> + * THE SOFTWARE.
> + */
> +
> +#include <clc/clc.h>
> +
> +#include "math.h"
> +#include "tables.h"
> +#include "../clcmacro.h"
> +
> +// compute pow using log and exp
> +// x^y = exp(y * log(x))
> +//
> +// we take care not to lose precision in the intermediate steps
> +//
> +// When computing log, calculate it in splits,
> +//
> +// r = f * (p_invead + p_inv_tail)
> +// r = rh + rt
> +//
> +// calculate log polynomial using r, in end addition, do
> +// poly = poly + ((rh-r) + rt)
> +//
> +// lth = -r
> +// ltt = ((xexp * log2_t) - poly) + logT
> +// lt = lth + ltt
> +//
> +// lh = (xexp * log2_h) + logH
> +// l = lh + lt
> +//
> +// Calculate final log answer as gh and gt,
> +// gh = l & higher-half bits
> +// gt = (((ltt - (lt - lth)) + ((lh - l) + lt)) + (l - gh))
> +//
> +// yh = y & higher-half bits
> +// yt = y - yh
> +//
> +// Before entering computation of exp,
> +// vs = ((yt*gt + yt*gh) + yh*gt)
> +// v = vs + yh*gh
> +// vt = ((yh*gh - v) + vs)
> +//
> +// In calculation of exp, add vt to r that is used for poly
> +// At the end of exp, do
> +// ((((expT * poly) + expT) + expH*poly) + expH)
> +
> +_CLC_DEF _CLC_OVERLOAD float __clc_pown(float x, int ny)
> +{
> + float y = (float)ny;
> +
> + int ix = as_int(x);
> + int ax = ix & EXSIGNBIT_SP32;
> + int xpos = ix == ax;
> +
> + int iy = as_int(y);
> + int ay = iy & EXSIGNBIT_SP32;
> + int ypos = iy == ay;
> +
> + // Extra precise log calculation
> + // First handle case that x is close to 1
> + float r = 1.0f - as_float(ax);
> + int near1 = fabs(r) < 0x1.0p-4f;
> + float r2 = r*r;
> +
> + // Coefficients are just 1/3, 1/4, 1/5 and 1/6
> + float poly = mad(r,
> + mad(r,
> + mad(r,
> + mad(r, 0x1.24924ap-3f, 0x1.555556p-3f),
> + 0x1.99999ap-3f),
> + 0x1.000000p-2f),
> + 0x1.555556p-2f);
> +
> + poly *= r2*r;
> +
> + float lth_near1 = -r2 * 0.5f;
> + float ltt_near1 = -poly;
> + float lt_near1 = lth_near1 + ltt_near1;
> + float lh_near1 = -r;
> + float l_near1 = lh_near1 + lt_near1;
> +
> + // Computations for x not near 1
> + int m = (int)(ax >> EXPSHIFTBITS_SP32) - EXPBIAS_SP32;
> + float mf = (float)m;
> + int ixs = as_int(as_float(ax | 0x3f800000) - 1.0f);
> + float mfs = (float)((ixs >> EXPSHIFTBITS_SP32) - 253);
> + int c = m == -127;
> + int ixn = c ? ixs : ax;
> + float mfn = c ? mfs : mf;
> +
> + int indx = (ixn & 0x007f0000) + ((ixn & 0x00008000) << 1);
> +
> + // F - Y
> + float f = as_float(0x3f000000 | indx) - as_float(0x3f000000 |
> (ixn & MANTBITS_SP32));
> +
> + indx = indx >> 16;
> + float2 tv = USE_TABLE(log_inv_tbl_ep, indx);
> + float rh = f * tv.s0;
> + float rt = f * tv.s1;
> + r = rh + rt;
> +
> + poly = mad(r, mad(r, 0x1.0p-2f, 0x1.555556p-2f), 0x1.0p-1f) *
> (r*r);
> + poly += (rh - r) + rt;
> +
> + const float LOG2_HEAD = 0x1.62e000p-1f; // 0.693115234
> + const float LOG2_TAIL = 0x1.0bfbe8p-15f; // 0.0000319461833
> + tv = USE_TABLE(loge_tbl, indx);
> + float lth = -r;
> + float ltt = mad(mfn, LOG2_TAIL, -poly) + tv.s1;
> + float lt = lth + ltt;
> + float lh = mad(mfn, LOG2_HEAD, tv.s0);
> + float l = lh + lt;
> +
> + // Select near 1 or not
> + lth = near1 ? lth_near1 : lth;
> + ltt = near1 ? ltt_near1 : ltt;
> + lt = near1 ? lt_near1 : lt;
> + lh = near1 ? lh_near1 : lh;
> + l = near1 ? l_near1 : l;
> +
> + float gh = as_float(as_int(l) & 0xfffff000);
> + float gt = ((ltt - (lt - lth)) + ((lh - l) + lt)) + (l - gh);
> +
> + float yh = as_float(iy & 0xfffff000);
> +
> + float yt = (float)(ny - (int)yh);
> +
> + float ylogx_s = mad(gt, yh, mad(gh, yt, yt*gt));
> + float ylogx = mad(yh, gh, ylogx_s);
> + float ylogx_t = mad(yh, gh, -ylogx) + ylogx_s;
> +
> + // Extra precise exp of ylogx
> + const float R_64_BY_LOG2 = 0x1.715476p+6f; // 64/log2 :
> 92.332482616893657
> + int n = convert_int(ylogx * R_64_BY_LOG2);
> + float nf = (float) n;
> +
> + int j = n & 0x3f;
> + m = n >> 6;
> + int m2 = m << EXPSHIFTBITS_SP32;
> +
> + const float R_LOG2_BY_64_LD = 0x1.620000p-7f; // log2/64 lead:
> 0.0108032227
> + const float R_LOG2_BY_64_TL = 0x1.c85fdep-16f; // log2/64 tail:
> 0.0000272020388
> + r = mad(nf, -R_LOG2_BY_64_TL, mad(nf, -R_LOG2_BY_64_LD, ylogx))
> + ylogx_t;
> +
> + // Truncated Taylor series for e^r
> + poly = mad(mad(mad(r, 0x1.555556p-5f, 0x1.555556p-3f), r,
> 0x1.000000p-1f), r*r, r);
> +
> + tv = USE_TABLE(exp_tbl_ep, j);
> +
> + float expylogx = mad(tv.s0, poly, mad(tv.s1, poly, tv.s1)) +
> tv.s0;
> + #if !defined(SUBNORMALS_SUPPORTED)
> + int explg = ((as_uint(expylogx) & EXPBITS_SP32 >>
> 23) - 127);
> + m = (23-(m + 149)) == 0 ? 1: m;
> + uint mantissa = ((as_uint(expylogx) &
> MANTBITS_SP32)|IMPBIT_SP32) >> (23-(m + 149));
> + float sexpylogx = as_float(mantissa);
> + #else
> + float sexpylogx = expylogx * as_float(0x1 << (m +
> 149));
> + #endif
> +
> +
> + float texpylogx = as_float(as_int(expylogx) + m2);
> + expylogx = m < -125 ? sexpylogx : texpylogx;
> +
> + // Result is +-Inf if (ylogx + ylogx_t) > 128*log2
> + expylogx = ((ylogx > 0x1.62e430p+6f) | (ylogx == 0x1.62e430p+6f
> & ylogx_t > -0x1.05c610p-22f)) ? as_float(PINFBITPATT_SP32) :
> expylogx;
> +
> + // Result is 0 if ylogx < -149*log2
> + expylogx = ylogx < -0x1.9d1da0p+6f ? 0.0f : expylogx;
> +
> + // Classify y:
> + // inty = 0 means not an integer.
> + // inty = 1 means odd integer.
> + // inty = 2 means even integer.
> +
> + int inty = 2 - (ny & 1);
> +
> + float signval = as_float((as_uint(expylogx) ^ SIGNBIT_SP32));
> + expylogx = ((inty == 1) & !xpos) ? signval : expylogx;
> + int ret = as_int(expylogx);
> +
> + // Corner case handling
> + int xinf = xpos ? PINFBITPATT_SP32 : NINFBITPATT_SP32;
> + ret = ((ax == 0) & !ypos & (inty == 1)) ? xinf : ret;
> + ret = ((ax == 0) & !ypos & (inty == 2)) ? PINFBITPATT_SP32 :
> ret;
> + ret = ((ax == 0) & ypos & (inty == 2)) ? 0 : ret;
> + int xzero = !xpos ? 0x80000000 : 0L;
> + ret = ((ax == 0) & ypos & (inty == 1)) ? xzero : ret;
> + ret = ((ix == NINFBITPATT_SP32) & !ypos & (inty == 1)) ?
> 0x80000000 : ret;
> + ret = ((ix == NINFBITPATT_SP32) & !ypos & (inty != 1)) ? 0 :
> ret;
> + ret = ((ix == NINFBITPATT_SP32) & ypos & (inty == 1)) ?
> NINFBITPATT_SP32 : ret;
> + ret = ((ix == NINFBITPATT_SP32) & ypos & (inty != 1)) ?
> PINFBITPATT_SP32 : ret;
> + ret = ((ix == PINFBITPATT_SP32) & !ypos) ? 0 : ret;
> + ret = ((ix == PINFBITPATT_SP32) & ypos) ? PINFBITPATT_SP32 :
> ret;
> + ret = ax > PINFBITPATT_SP32 ? ix : ret;
> + ret = ny == 0 ? 0x3f800000 : ret;
> +
> + return as_float(ret);
> +}
> +_CLC_BINARY_VECTORIZE(_CLC_DEF _CLC_OVERLOAD, float, __clc_pown,
> float, int)
> +
> +#ifdef cl_khr_fp64
> +_CLC_DEF _CLC_OVERLOAD double __clc_pown(double x, int ny)
> +{
> + const double real_log2_tail = 5.76999904754328540596e-08;
> + const double real_log2_lead = 6.93147122859954833984e-01;
> +
> + double y = (double) ny;
> +
> + long ux = as_long(x);
> + long ax = ux & (~SIGNBIT_DP64);
> + int xpos = ax == ux;
> +
> + long uy = as_long(y);
> + long ay = uy & (~SIGNBIT_DP64);
> + int ypos = ay == uy;
> +
> + // Extended precision log
> + double v, vt;
> + {
> + int exp = (int)(ax >> 52) - 1023;
> + int mask_exp_1023 = exp == -1023;
> + double xexp = (double) exp;
> + long mantissa = ax & 0x000FFFFFFFFFFFFFL;
> +
> + long temp_ux = as_long(as_double(0x3ff0000000000000L |
> mantissa) - 1.0);
> + exp = ((temp_ux & 0x7FF0000000000000L) >> 52) - 2045;
> + double xexp1 = (double) exp;
> + long mantissa1 = temp_ux & 0x000FFFFFFFFFFFFFL;
> +
> + xexp = mask_exp_1023 ? xexp1 : xexp;
> + mantissa = mask_exp_1023 ? mantissa1 : mantissa;
> +
> + long rax = (mantissa & 0x000ff00000000000) + ((mantissa &
> 0x0000080000000000) << 1);
> + int index = rax >> 44;
> +
> + double F = as_double(rax | 0x3FE0000000000000L);
> + double Y = as_double(mantissa | 0x3FE0000000000000L);
> + double f = F - Y;
> + double2 tv = USE_TABLE(log_f_inv_tbl, index);
> + double log_h = tv.s0;
> + double log_t = tv.s1;
> + double f_inv = (log_h + log_t) * f;
> + double r1 = as_double(as_long(f_inv) & 0xfffffffff8000000L);
> + double r2 = fma(-F, r1, f) * (log_h + log_t);
> + double r = r1 + r2;
> +
> + double poly = fma(r,
> + fma(r,
> + fma(r,
> + fma(r, 1.0/7.0, 1.0/6.0),
> + 1.0/5.0),
> + 1.0/4.0),
> + 1.0/3.0);
> + poly = poly * r * r * r;
> +
> + double hr1r1 = 0.5*r1*r1;
> + double poly0h = r1 + hr1r1;
> + double poly0t = r1 - poly0h + hr1r1;
> + poly = fma(r1, r2, fma(0.5*r2, r2, poly)) + r2 + poly0t;
> +
> + tv = USE_TABLE(powlog_tbl, index);
> + log_h = tv.s0;
> + log_t = tv.s1;
> +
> + double resT_t = fma(xexp, real_log2_tail, + log_t) - poly;
> + double resT = resT_t - poly0h;
> + double resH = fma(xexp, real_log2_lead, log_h);
> + double resT_h = poly0h;
> +
> + double H = resT + resH;
> + double H_h = as_double(as_long(H) & 0xfffffffff8000000L);
> + double T = (resH - H + resT) + (resT_t - (resT + resT_h)) +
> (H - H_h);
> + H = H_h;
> +
> + double y_head = as_double(uy & 0xfffffffff8000000L);
> + double y_tail = y - y_head;
> +
> + int mask_2_24 = ay > 0x4170000000000000; // 2^24
> + int nyh = convert_int(y_head);
> + int nyt = ny - nyh;
> + double y_tail1 = (double)nyt;
> + y_tail = mask_2_24 ? y_tail1 : y_tail;
> +
> + double temp = fma(y_tail, H, fma(y_head, T, y_tail*T));
> + v = fma(y_head, H, temp);
> + vt = fma(y_head, H, -v) + temp;
> + }
> +
> + // Now calculate exp of (v,vt)
> +
> + double expv;
> + {
> + const double max_exp_arg = 709.782712893384;
> + const double min_exp_arg = -745.1332191019411;
> + const double sixtyfour_by_lnof2 = 92.33248261689366;
> + const double lnof2_by_64_head = 0.010830424260348081;
> + const double lnof2_by_64_tail = -4.359010638708991e-10;
> +
> + double temp = v * sixtyfour_by_lnof2;
> + int n = (int)temp;
> + double dn = (double)n;
> + int j = n & 0x0000003f;
> + int m = n >> 6;
> +
> + double2 tv = USE_TABLE(two_to_jby64_ep_tbl, j);
> + double f1 = tv.s0;
> + double f2 = tv.s1;
> + double f = f1 + f2;
> +
> + double r1 = fma(dn, -lnof2_by_64_head, v);
> + double r2 = dn * lnof2_by_64_tail;
> + double r = (r1 + r2) + vt;
> +
> + double q = fma(r,
> + fma(r,
> + fma(r,
> + fma(r, 1.38889490863777199667e-03,
> 8.33336798434219616221e-03),
> + 4.16666666662260795726e-02),
> + 1.66666666665260878863e-01),
> + 5.00000000000000008883e-01);
> + q = fma(r*r, q, r);
> +
> + expv = fma(f, q, f2) + f1;
> + expv = ldexp(expv, m);
> +
> + expv = v > max_exp_arg ? as_double(0x7FF0000000000000L) :
> expv;
> + expv = v < min_exp_arg ? 0.0 : expv;
> + }
> +
> + // See whether y is an integer.
> + // inty = 0 means not an integer.
> + // inty = 1 means odd integer.
> + // inty = 2 means even integer.
> +
> + int inty = 2 - (ny & 1);
> +
> + expv *= ((inty == 1) & !xpos) ? -1.0 : 1.0;
> +
> + long ret = as_long(expv);
> +
> + // Now all the edge cases
> + long xinf = xpos ? PINFBITPATT_DP64 : NINFBITPATT_DP64;
> + ret = ((ax == 0L) & !ypos & (inty == 1)) ? xinf : ret;
> + ret = ((ax == 0L) & !ypos & (inty == 2)) ? PINFBITPATT_DP64 :
> ret;
> + ret = ((ax == 0L) & ypos & (inty == 2)) ? 0L : ret;
> + long xzero = !xpos ? 0x8000000000000000L : 0L;
> + ret = ((ax == 0L) & ypos & (inty == 1)) ? xzero : ret;
> + ret = ((ux == NINFBITPATT_DP64) & !ypos & (inty == 1)) ?
> 0x8000000000000000L : ret;
> + ret = ((ux == NINFBITPATT_DP64) & !ypos & (inty != 1)) ? 0L :
> ret;
> + ret = ((ux == NINFBITPATT_DP64) & ypos & (inty == 1)) ?
> NINFBITPATT_DP64 : ret;
> + ret = ((ux == NINFBITPATT_DP64) & ypos & (inty != 1)) ?
> PINFBITPATT_DP64 : ret;
> + ret = ((ux == PINFBITPATT_DP64) & !ypos) ? 0L : ret;
> + ret = ((ux == PINFBITPATT_DP64) & ypos) ? PINFBITPATT_DP64 :
> ret;
> + ret = ax > PINFBITPATT_DP64 ? ux : ret;
> + ret = ny == 0 ? 0x3ff0000000000000L : ret;
> +
> + return as_double(ret);
> +}
> +_CLC_BINARY_VECTORIZE(_CLC_DEF _CLC_OVERLOAD, double, __clc_pown,
> double, int)
> +#endif
> diff --git a/generic/lib/math/pown.cl b/generic/lib/math/pown.cl
> index f3b27d4..7652cd5 100644
> --- a/generic/lib/math/pown.cl
> +++ b/generic/lib/math/pown.cl
> @@ -1,10 +1,6 @@
> #include <clc/clc.h>
> -#include "../clcmacro.h"
>
> -_CLC_BINARY_VECTORIZE(_CLC_OVERLOAD _CLC_DEF, float, pown, float,
> int)
> +#include <math/clc_pown.h>
>
> -#ifdef cl_khr_fp64
> -#pragma OPENCL EXTENSION cl_khr_fp64 : enable
> -
> -_CLC_BINARY_VECTORIZE(_CLC_OVERLOAD _CLC_DEF, double, pown, double,
> int)
> -#endif
> +#define __CLC_BODY <pown.inc>
> +#include <clc/math/gentype.inc>
> diff --git a/generic/lib/math/pown.inc b/generic/lib/math/pown.inc
> new file mode 100644
> index 0000000..84729d9
> --- /dev/null
> +++ b/generic/lib/math/pown.inc
> @@ -0,0 +1,3 @@
> +_CLC_OVERLOAD _CLC_DEF __CLC_GENTYPE pown(__CLC_GENTYPE x,
> __CLC_INTN y) {
> + return __clc_pown(x, y);
> +}
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