| /external/eigen/lapack/ |
| clarft.f | 21 * SUBROUTINE CLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
25 * INTEGER K, LDT, LDV, N
28 * COMPLEX T( LDT, * ), TAU( * ), V( LDV, * )
113 *> T is COMPLEX array, dimension (LDT,K)
119 *> \param[in] LDT
121 *> LDT is INTEGER
122 *> The leading dimension of the array T. LDT >= K.
164 SUBROUTINE CLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
173 INTEGER K, LDT, LDV, N
176 COMPLEX T( LDT, * ), TAU( * ), V( LDV, *
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| dlarft.f | 21 * SUBROUTINE DLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
25 * INTEGER K, LDT, LDV, N
28 * DOUBLE PRECISION T( LDT, * ), TAU( * ), V( LDV, * )
113 *> T is DOUBLE PRECISION array, dimension (LDT,K)
119 *> \param[in] LDT
121 *> LDT is INTEGER
122 *> The leading dimension of the array T. LDT >= K.
164 SUBROUTINE DLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
173 INTEGER K, LDT, LDV, N
176 DOUBLE PRECISION T( LDT, * ), TAU( * ), V( LDV, *
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| slarft.f | 21 * SUBROUTINE SLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
25 * INTEGER K, LDT, LDV, N
28 * REAL T( LDT, * ), TAU( * ), V( LDV, * )
113 *> T is REAL array, dimension (LDT,K)
119 *> \param[in] LDT
121 *> LDT is INTEGER
122 *> The leading dimension of the array T. LDT >= K.
164 SUBROUTINE SLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
173 INTEGER K, LDT, LDV, N
176 REAL T( LDT, * ), TAU( * ), V( LDV, *
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| zlarft.f | 21 * SUBROUTINE ZLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
25 * INTEGER K, LDT, LDV, N
28 * COMPLEX*16 T( LDT, * ), TAU( * ), V( LDV, * )
113 *> T is COMPLEX*16 array, dimension (LDT,K)
119 *> \param[in] LDT
121 *> LDT is INTEGER
122 *> The leading dimension of the array T. LDT >= K.
164 SUBROUTINE ZLARFT( DIRECT, STOREV, N, K, V, LDV, TAU, T, LDT )
173 INTEGER K, LDT, LDV, N
176 COMPLEX*16 T( LDT, * ), TAU( * ), V( LDV, *
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| clarfb.f | 22 * T, LDT, C, LDC, WORK, LDWORK )
26 * INTEGER K, LDC, LDT, LDV, LDWORK, M, N
29 * COMPLEX C( LDC, * ), T( LDT, * ), V( LDV, * ),
117 *> T is COMPLEX array, dimension (LDT,K)
122 *> \param[in] LDT
124 *> LDT is INTEGER
125 *> The leading dimension of the array T. LDT >= K.
196 $ T, LDT, C, LDC, WORK, LDWORK )
205 INTEGER K, LDC, LDT, LDV, LDWORK, M, N
208 COMPLEX C( LDC, * ), T( LDT, * ), V( LDV, * )
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| dlarfb.f | 22 * T, LDT, C, LDC, WORK, LDWORK )
26 * INTEGER K, LDC, LDT, LDV, LDWORK, M, N
29 * DOUBLE PRECISION C( LDC, * ), T( LDT, * ), V( LDV, * ),
117 *> T is DOUBLE PRECISION array, dimension (LDT,K)
122 *> \param[in] LDT
124 *> LDT is INTEGER
125 *> The leading dimension of the array T. LDT >= K.
196 $ T, LDT, C, LDC, WORK, LDWORK )
205 INTEGER K, LDC, LDT, LDV, LDWORK, M, N
208 DOUBLE PRECISION C( LDC, * ), T( LDT, * ), V( LDV, * )
[all...] |
| slarfb.f | 22 * T, LDT, C, LDC, WORK, LDWORK )
26 * INTEGER K, LDC, LDT, LDV, LDWORK, M, N
29 * REAL C( LDC, * ), T( LDT, * ), V( LDV, * ),
117 *> T is REAL array, dimension (LDT,K)
122 *> \param[in] LDT
124 *> LDT is INTEGER
125 *> The leading dimension of the array T. LDT >= K.
196 $ T, LDT, C, LDC, WORK, LDWORK )
205 INTEGER K, LDC, LDT, LDV, LDWORK, M, N
208 REAL C( LDC, * ), T( LDT, * ), V( LDV, * )
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| zlarfb.f | 22 * T, LDT, C, LDC, WORK, LDWORK )
26 * INTEGER K, LDC, LDT, LDV, LDWORK, M, N
29 * COMPLEX*16 C( LDC, * ), T( LDT, * ), V( LDV, * ),
117 *> T is COMPLEX*16 array, dimension (LDT,K)
122 *> \param[in] LDT
124 *> LDT is INTEGER
125 *> The leading dimension of the array T. LDT >= K.
196 $ T, LDT, C, LDC, WORK, LDWORK )
205 INTEGER K, LDC, LDT, LDV, LDWORK, M, N
208 COMPLEX*16 C( LDC, * ), T( LDT, * ), V( LDV, * )
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| /device/linaro/bootloader/edk2/UefiCpuPkg/PiSmmCpuDxeSmm/Ia32/ |
| SmiException.asm | 142 LDT DW ?
184 DW 0 ; LDT Selector
225 DW 0 ; LDT Selector
548 movzx eax, (IA32_TSS ptr [ecx]).LDT
|
| /libcore/ojluni/src/test/java/time/tck/java/time/zone/ |
| TCKFixedZoneRules.java | 91 private static final LocalDateTime LDT = LocalDateTime.of(2010, 12, 3, 11, 30);
92 private static final Instant INSTANT = LDT.toInstant(OFFSET_PONE);
119 assertEquals(test.getOffset(LDT), expectedOffset);
125 assertEquals(test.getValidOffsets(LDT).size(), 1);
126 assertEquals(test.getValidOffsets(LDT).get(0), expectedOffset);
133 assertEquals(test.getTransition(LDT), null);
139 assertEquals(test.isValidOffset(LDT, expectedOffset), true);
140 assertEquals(test.isValidOffset(LDT, ZoneOffset.UTC), false);
141 assertEquals(test.isValidOffset(LDT, null), false);
188 test.getTransitions().add(ZoneOffsetTransition.of(LDT, OFFSET_PONE, OFFSET_PTWO))
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