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Fix tanf underflow close to pi/4 (bug 14154).

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This commit is contained in:
Joseph Myers 2012-07-06 21:19:38 +00:00
parent 76b1f93b04
commit 9ad63c23ea
5 changed files with 86 additions and 3 deletions
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8
ChangeLog
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@ -1,5 +1,13 @@
2012-07-06 Joseph Myers <joseph@codesourcery.com>
[BZ #14154]
* sysdeps/ieee754/flt-32/k_tanf.c (__kernel_tanf): Use linear
approximation for values within 0x1p-13f of an odd multiple of
pi/4.
* math/libm-test.inc (tan_test): Do not allow spurious underflow
exception. Add more tests.
* sysdeps/i386/fpu/libm-test-ulps: Update.
[BZ #6778]
* sysdeps/i386/fpu/s_expm1.S (__expm1): Check for large negative
inputs and return -1 for them. Do not check for +Inf in case not

2
NEWS
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@ -9,7 +9,7 @@ Version 2.17
* The following bugs are resolved with this release:
6778, 14157, 14283, 14328, 14331
6778, 14154, 14157, 14283, 14328, 14331
Version 2.16

41
math/libm-test.inc
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@ -8405,13 +8405,50 @@ tan_test (void)
TEST_f_f (tan, nan_value, nan_value);
check_int ("errno for tan(NaN) == 0", errno, 0, 0, 0, 0);
/* Bug 14154: spurious exception may occur. */
TEST_f_f (tan, M_PI_4l, 1, UNDERFLOW_EXCEPTION_OK_FLOAT);
TEST_f_f (tan, M_PI_4l, 1);
TEST_f_f (tan, 0.75L, 0.931596459944072461165202756573936428L);
TEST_f_f (tan, 0x1p65, -0.0472364872359047946798414219288370688827L);
TEST_f_f (tan, -0x1p65, 0.0472364872359047946798414219288370688827L);
TEST_f_f (tan, 0xc.9p-4, 0.9995162902115457818029468900654150261381L);
TEST_f_f (tan, 0xc.908p-4, 0.9997603425502441410973077452249560802034L);
TEST_f_f (tan, 0xc.90cp-4, 0.9998823910588060302788513970802357770031L);
TEST_f_f (tan, 0xc.90ep-4, 0.9999434208994808753305784795924711152508L);
TEST_f_f (tan, 0xc.90fp-4, 0.9999739372166156702433266059635165160515L);
TEST_f_f (tan, 0xc.90f8p-4, 0.9999891957244072765118898375645469865764L);
TEST_f_f (tan, 0xc.90fcp-4, 0.9999968250656122402859679132395522927393L);
TEST_f_f (tan, 0xc.90fdp-4, 0.9999987324100083358016192309006353329444L);
TEST_f_f (tan, 0xc.90fd8p-4, 0.9999996860835706212861509874451585282616L);
TEST_f_f (tan, 0xc.90fdap-4, 0.9999999245021033010474530133665235922808L);
TEST_f_f (tan, 0xc.ap-4, 1.0073556597407272165371804539701396631519L);
TEST_f_f (tan, 0xc.98p-4, 1.0034282930863044654045449407466962736255L);
TEST_f_f (tan, 0xc.94p-4, 1.0014703786820082237342656561856877993328L);
TEST_f_f (tan, 0xc.92p-4, 1.0004928571392300571266638743539017593717L);
TEST_f_f (tan, 0xc.91p-4, 1.0000044544650244953647966900221905361131L);
TEST_f_f (tan, 0xc.90fep-4, 1.0000006397580424009014454926842136804016L);
TEST_f_f (tan, 0xc.90fdcp-4, 1.0000001629206928242190327320047489394217L);
TEST_f_f (tan, 0xc.90fdbp-4, 1.0000000437113909572052640953950483705005L);
TEST_f_f (tan, -0xc.9p-4, -0.9995162902115457818029468900654150261381L);
TEST_f_f (tan, -0xc.908p-4, -0.9997603425502441410973077452249560802034L);
TEST_f_f (tan, -0xc.90cp-4, -0.9998823910588060302788513970802357770031L);
TEST_f_f (tan, -0xc.90ep-4, -0.9999434208994808753305784795924711152508L);
TEST_f_f (tan, -0xc.90fp-4, -0.9999739372166156702433266059635165160515L);
TEST_f_f (tan, -0xc.90f8p-4, -0.9999891957244072765118898375645469865764L);
TEST_f_f (tan, -0xc.90fcp-4, -0.9999968250656122402859679132395522927393L);
TEST_f_f (tan, -0xc.90fdp-4, -0.9999987324100083358016192309006353329444L);
TEST_f_f (tan, -0xc.90fd8p-4, -0.9999996860835706212861509874451585282616L);
TEST_f_f (tan, -0xc.90fdap-4, -0.9999999245021033010474530133665235922808L);
TEST_f_f (tan, -0xc.ap-4, -1.0073556597407272165371804539701396631519L);
TEST_f_f (tan, -0xc.98p-4, -1.0034282930863044654045449407466962736255L);
TEST_f_f (tan, -0xc.94p-4, -1.0014703786820082237342656561856877993328L);
TEST_f_f (tan, -0xc.92p-4, -1.0004928571392300571266638743539017593717L);
TEST_f_f (tan, -0xc.91p-4, -1.0000044544650244953647966900221905361131L);
TEST_f_f (tan, -0xc.90fep-4, -1.0000006397580424009014454926842136804016L);
TEST_f_f (tan, -0xc.90fdcp-4, -1.0000001629206928242190327320047489394217L);
TEST_f_f (tan, -0xc.90fdbp-4, -1.0000000437113909572052640953950483705005L);
#ifndef TEST_FLOAT
TEST_f_f (tan, 1e22, -1.628778225606898878549375936939548513545L);
TEST_f_f (tan, 0x1p1023, -0.6814476476066215012854144040167365190368L);

36
sysdeps/i386/fpu/libm-test-ulps
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@ -2353,9 +2353,45 @@ double: 1
idouble: 1
# tan
Test "tan (-0xc.90fdbp-4) == -1.0000000437113909572052640953950483705005":
float: 1
ifloat: 1
Test "tan (-0xc.90fdcp-4) == -1.0000001629206928242190327320047489394217":
float: 1
ifloat: 1
Test "tan (-0xc.90fep-4) == -1.0000006397580424009014454926842136804016":
float: 1
ifloat: 1
Test "tan (-0xc.91p-4) == -1.0000044544650244953647966900221905361131":
float: 1
ifloat: 1
Test "tan (-0xc.92p-4) == -1.0004928571392300571266638743539017593717":
float: 1
ifloat: 1
Test "tan (-0xc.94p-4) == -1.0014703786820082237342656561856877993328":
float: 1
ifloat: 1
Test "tan (0x1p16383) == 0.422722393732022337800504160054440141575":
ildouble: 1
ldouble: 1
Test "tan (0xc.90fdbp-4) == 1.0000000437113909572052640953950483705005":
float: 1
ifloat: 1
Test "tan (0xc.90fdcp-4) == 1.0000001629206928242190327320047489394217":
float: 1
ifloat: 1
Test "tan (0xc.90fep-4) == 1.0000006397580424009014454926842136804016":
float: 1
ifloat: 1
Test "tan (0xc.91p-4) == 1.0000044544650244953647966900221905361131":
float: 1
ifloat: 1
Test "tan (0xc.92p-4) == 1.0004928571392300571266638743539017593717":
float: 1
ifloat: 1
Test "tan (0xc.94p-4) == 1.0014703786820082237342656561856877993328":
float: 1
ifloat: 1
Test "tan (1e22) == -1.628778225606898878549375936939548513545":
ildouble: 1
ldouble: 1

2
sysdeps/ieee754/flt-32/k_tanf.c
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@ -56,6 +56,8 @@ float __kernel_tanf(float x, float y, int iy)
z = pio4-x;
w = pio4lo-y;
x = z+w; y = 0.0;
if (fabsf (x) < 0x1p-13f)
return (1 - ((hx >> 30) & 2)) * iy * (1.0f - 2 * iy * x);
}
z = x*x;
w = z*z;