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  /external/stlport/test/unit/
limits_test.cpp 236 const _Tp qnan = lim::quiet_NaN(); local
240 // str << "qnan " << qnan << ", in hexa: " << showbase << hex << *((unsigned int*)&qnan);
247 // val = -qnan;
248 // str << "-qnan " << val << ", in hexa: " << showbase << hex << *((unsigned int*)&val);
255 CHECK_COND(! (qnan == 42));
256 CHECK_COND(! (qnan == qnan));
257 CHECK_COND(qnan != 42)
    [all...]
num_facets_test.cpp 120 double qnan = limd::quiet_NaN(); local
125 nput.put(fostr, fostr, ' ', qnan);
  /ndk/tests/device/test-gnustl-full/unit/
limits_test.cpp 236 const _Tp qnan = lim::quiet_NaN(); local
240 // str << "qnan " << qnan << ", in hexa: " << showbase << hex << *((unsigned int*)&qnan);
247 // val = -qnan;
248 // str << "-qnan " << val << ", in hexa: " << showbase << hex << *((unsigned int*)&val);
255 CHECK_COND(! (qnan == 42));
256 CHECK_COND(! (qnan == qnan));
257 CHECK_COND(qnan != 42)
    [all...]
num_facets_test.cpp 120 double qnan = limd::quiet_NaN(); local
125 nput.put(fostr, fostr, ' ', qnan);
  /ndk/tests/device/test-stlport/unit/
limits_test.cpp 236 const _Tp qnan = lim::quiet_NaN(); local
240 // str << "qnan " << qnan << ", in hexa: " << showbase << hex << *((unsigned int*)&qnan);
247 // val = -qnan;
248 // str << "-qnan " << val << ", in hexa: " << showbase << hex << *((unsigned int*)&val);
255 CHECK_COND(! (qnan == 42));
256 CHECK_COND(! (qnan == qnan));
257 CHECK_COND(qnan != 42)
    [all...]
num_facets_test.cpp 120 double qnan = limd::quiet_NaN(); local
125 nput.put(fostr, fostr, ' ', qnan);
  /external/valgrind/main/VEX/useful/
fp_80_64.c 73 S 7FFF 11X-----X qnan
88 S 7FF 1X-----X qnan
167 QNaN, as determined by examining bits 51:0, thus:
170 1X ... X QNaN
185 /* So it's either a QNaN or SNaN. Distinguish by considering
188 these (it only requires that there be one QNaN value and one
193 /* QNaN. Make a QNaN:
265 QNaN, as determined by examining bits 62:0, thus:
268 1X ... X QNaN
    [all...]
  /external/compiler-rt/lib/
adddf3.c 31 // NaN + anything = qNaN
33 // anything + NaN = qNaN
37 // +/-infinity + -/+infinity = qNaN
addsf3.c 30 // NaN + anything = qNaN
32 // anything + NaN = qNaN
36 // +/-infinity + -/+infinity = qNaN
muldf3.c 37 // NaN * anything = qNaN
39 // anything * NaN = qNaN
mulsf3.c 37 // NaN * anything = qNaN
39 // anything * NaN = qNaN
divdf3.c 40 // NaN / anything = qNaN
42 // anything / NaN = qNaN
divsf3.c 40 // NaN / anything = qNaN
42 // anything / NaN = qNaN
extendsfdf2.c 110 // Conjure the result by beginning with infinity, then setting the qNaN
truncdfsf2.c 126 // Conjure the result by beginning with infinity, setting the qNaN
  /external/compiler-rt/test/Unit/ppc/
qdiv_test.c 27 #define QNAN __builtin_nan("")
30 { 0.0, 0.0, 0.0, 0.0, QNAN, 0.0 },
31 { -0.0, 0.0, 0.0, 0.0, QNAN, 0.0 },
32 { 0.0, 0.0, -0.0, 0.0, QNAN, 0.0 },
33 { -0.0, 0.0, -0.0, 0.0, QNAN, 0.0 },
47 { INFINITY, 0.0, INFINITY, 0.0, QNAN, 0.0 },
48 { -INFINITY, 0.0, INFINITY, 0.0, -QNAN, 0.0 },
49 { INFINITY, 0.0, -INFINITY, 0.0, -QNAN, 0.0 },
50 { -INFINITY, 0.0, -INFINITY, 0.0, QNAN, 0.0 },
64 { QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 }
    [all...]
qmul_test.c 27 #define QNAN __builtin_nan("")
35 { INFINITY, 0.0, 0.0, 0.0, QNAN, 0.0 },
36 { -INFINITY, 0.0, 0.0, 0.0, QNAN, 0.0 },
37 { INFINITY, 0.0, -0.0, 0.0, QNAN, 0.0 },
38 { -INFINITY, 0.0, -0.0, 0.0, QNAN, 0.0 },
51 { 0.0, 0.0, INFINITY, 0.0, QNAN, 0.0 },
52 { 0.0, 0.0, -INFINITY, 0.0, QNAN, 0.0 },
53 { -0.0, 0.0, INFINITY, 0.0, QNAN, 0.0 },
54 { -0.0, 0.0, -INFINITY, 0.0, QNAN, 0.0 },
64 { QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 }
    [all...]
qadd_test.c 27 #define QNAN __builtin_nan("")
48 { -INFINITY, 0.0, INFINITY, 0.0, QNAN, 0.0 },
49 { INFINITY, 0.0, -INFINITY, 0.0, QNAN, 0.0 },
64 { QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 },
65 { -QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 },
66 { QNAN, 0.0, -0.0, 0.0, QNAN, 0.0 },
67 { -QNAN, 0.0, -0.0, 0.0, QNAN, 0.0 }
    [all...]
qsub_test.c 27 #define QNAN __builtin_nan("")
48 { -INFINITY, 0.0, -INFINITY, 0.0, QNAN, 0.0 },
49 { INFINITY, 0.0, INFINITY, 0.0, QNAN, 0.0 },
64 { QNAN, 0.0, -0.0, 0.0, QNAN, 0.0 },
65 { -QNAN, 0.0, -0.0, 0.0, QNAN, 0.0 },
66 { QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 },
67 { -QNAN, 0.0, 0.0, 0.0, QNAN, 0.0 }
    [all...]
  /external/valgrind/main/VEX/priv/
guest_generic_x87.c 59 S 7FFF 11X-----X qnan
74 S 7FF 1X-----X qnan
169 QNaN, as determined by examining bits 51:0, thus:
172 1X ... X QNaN
187 /* So it's either a QNaN or SNaN. Distinguish by considering
190 these (it only requires that there be one QNaN value and one
195 /* QNaN. Make a canonical QNaN:
267 QNaN, as determined by examining bits 62:0, thus:
270 11X ... X QNaN
    [all...]
  /external/webkit/Source/JavaScriptCore/runtime/
JSValue.h 256 * with the top 13 bits set represents a QNaN (with the sign bit set). QNaN values
287 * with the top 13 bits set represents a QNaN (with the sign bit set). QNaN values
  /external/icu4c/i18n/
decContext.h 196 /* flags which are normally errors (result is qNaN, infinite, or 0) */
200 /* flags which cause a result to become qNaN */
  /external/qemu/fpu/
softfloat-specialize.h 281 * a sNaN, a new qNaN has to be generated. This is done in
282 * floatXX_maybe_silence_nan(). For qNaN inputs the specifications
283 * says: "When possible, this QNaN result is one of the operand QNaN
285 * the first operand if both operands are qNaN. In short this gives
308 * 1. A if it sNaN or qNaN
309 * 2. B if it sNaN or qNaN
323 * SNaN + QNaN => return the QNaN
327 * QNaN and a non-NaN => return the QNa
    [all...]
  /external/valgrind/main/none/tests/ppc32/
test_isa_2_06_part1.c 127 * +QNaN : 0 0x7FF 0x7FFFFFFFFFFFF => 0x7FF7FFFFFFFFFFFF
128 * -QNaN : 1 0x7FF 0x7FFFFFFFFFFFF => 0xFFF7FFFFFFFFFFFF
141 * +QNaN : 0 0xFF 0x3FFFFF => 0x7FBFFFFF
142 * -QNaN : 1 0xFF 0x3FFFFF => 0xFFBFFFFF
    [all...]
  /external/valgrind/main/none/tests/ppc64/
test_isa_2_06_part1.c 127 * +QNaN : 0 0x7FF 0x7FFFFFFFFFFFF => 0x7FF7FFFFFFFFFFFF
128 * -QNaN : 1 0x7FF 0x7FFFFFFFFFFFF => 0xFFF7FFFFFFFFFFFF
141 * +QNaN : 0 0xFF 0x3FFFFF => 0x7FBFFFFF
142 * -QNaN : 1 0xFF 0x3FFFFF => 0xFFBFFFFF
    [all...]

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