Searched refs:PC2 (Results 1 - 13 of 13) sorted by relevance
/netbsd-current/lib/libcrypt/ |
H A D | crypt.c | 198 * PC1ROT: MSB->LSB, PC1 permutation, rotate, and PC2 permutation. 201 * PC2ROT[0]: Inverse PC2 permutation, rotate, and PC2 permutation. 205 * next by using a transformation that "undoes" the PC2 permutation, 206 * rotates the code, and then applies PC2. Unfortunately, PC2 207 * transforms 56 bits into 48 bits, dropping 8 bits, so PC2 is not 208 * invertible. We get around that problem by using a modified PC2 363 /* note: each "row" of PC2 is left-padded with bits that make it invertible */ 364 static const unsigned char PC2[] variable [all...] |
/netbsd-current/external/gpl3/binutils/dist/gas/config/ |
H A D | rx-parse.y | 91 #define PC2(v) rx_op (v, 2, RXREL_PCREL) 209 { B1 (0x38); PC2 ($2); } 228 { B1 (0x39); PC2 ($2); } 234 B1 (0x39); PC2 ($2); } } 257 { B1 (0x38), PC2 ($3); } 259 { B1 (0x39), PC2 ($3); } 262 { B1 ($1 == COND_EQ ? 0x3a : 0x3b); PC2 ($3); }
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H A D | rx-parse.c | 149 #define PC2(v) rx_op (v, 2, RXREL_PCREL) macro 2483 { B1 (0x38); PC2 ((yyvsp[0].exp)); } 2509 { B1 (0x39); PC2 ((yyvsp[0].exp)); } 2515 B1 (0x39); PC2 ((yyvsp[0].exp)); } } 2548 { B1 (0x38), PC2 ((yyvsp[0].exp)); } 2554 { B1 (0x39), PC2 ((yyvsp[0].exp)); } 2561 { B1 ((yyvsp[-2].regno) == COND_EQ ? 0x3a : 0x3b); PC2 ((yyvsp[0].exp)); }
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H A D | rl78-parse.y | 68 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) 343 { B1 (0xee); PC2 ($4); rl78_linkrelax_branch (); } 365 { B1 (0xfe); PC2 ($4); }
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H A D | rl78-parse.c | 126 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) macro 2447 { B1 (0xee); PC2 ((yyvsp[0].exp)); rl78_linkrelax_branch (); } 2483 { B1 (0xfe); PC2 ((yyvsp[0].exp)); }
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/netbsd-current/external/gpl3/gdb.old/dist/gas/config/ |
H A D | rx-parse.y | 91 #define PC2(v) rx_op (v, 2, RXREL_PCREL) 209 { B1 (0x38); PC2 ($2); } 228 { B1 (0x39); PC2 ($2); } 234 B1 (0x39); PC2 ($2); } } 257 { B1 (0x38), PC2 ($3); } 259 { B1 (0x39), PC2 ($3); } 262 { B1 ($1 == COND_EQ ? 0x3a : 0x3b); PC2 ($3); }
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H A D | rl78-parse.y | 68 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) 343 { B1 (0xee); PC2 ($4); rl78_linkrelax_branch (); } 365 { B1 (0xfe); PC2 ($4); }
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/netbsd-current/external/gpl3/binutils.old/dist/gas/config/ |
H A D | rx-parse.y | 91 #define PC2(v) rx_op (v, 2, RXREL_PCREL) 209 { B1 (0x38); PC2 ($2); } 228 { B1 (0x39); PC2 ($2); } 234 B1 (0x39); PC2 ($2); } } 257 { B1 (0x38), PC2 ($3); } 259 { B1 (0x39), PC2 ($3); } 262 { B1 ($1 == COND_EQ ? 0x3a : 0x3b); PC2 ($3); }
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H A D | rx-parse.c | 149 #define PC2(v) rx_op (v, 2, RXREL_PCREL) macro 2483 { B1 (0x38); PC2 ((yyvsp[0].exp)); } 2509 { B1 (0x39); PC2 ((yyvsp[0].exp)); } 2515 B1 (0x39); PC2 ((yyvsp[0].exp)); } } 2548 { B1 (0x38), PC2 ((yyvsp[0].exp)); } 2554 { B1 (0x39), PC2 ((yyvsp[0].exp)); } 2561 { B1 ((yyvsp[-2].regno) == COND_EQ ? 0x3a : 0x3b); PC2 ((yyvsp[0].exp)); }
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H A D | rl78-parse.y | 68 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) 343 { B1 (0xee); PC2 ($4); rl78_linkrelax_branch (); } 365 { B1 (0xfe); PC2 ($4); }
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H A D | rl78-parse.c | 126 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) macro 2447 { B1 (0xee); PC2 ((yyvsp[0].exp)); rl78_linkrelax_branch (); } 2483 { B1 (0xfe); PC2 ((yyvsp[0].exp)); }
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/netbsd-current/external/gpl3/binutils.old/dist/gas/ |
H A D | rx-parse.c | 145 #define PC2(v) rx_op (v, 2, RXREL_PCREL) macro 2333 { B1 (0x38); PC2 ((yyvsp[0].exp)); } 2359 { B1 (0x39); PC2 ((yyvsp[0].exp)); } 2365 B1 (0x39); PC2 ((yyvsp[0].exp)); } } 2398 { B1 (0x38), PC2 ((yyvsp[0].exp)); } 2404 { B1 (0x39), PC2 ((yyvsp[0].exp)); } 2411 { B1 ((yyvsp[-2].regno) == COND_EQ ? 0x3a : 0x3b); PC2 ((yyvsp[0].exp)); }
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H A D | rl78-parse.c | 122 #define PC2(v) rl78_op (v, 2, RL78REL_PCREL) macro 2376 { B1 (0xee); PC2 ((yyvsp[0].exp)); rl78_linkrelax_branch (); } 2412 { B1 (0xfe); PC2 ((yyvsp[0].exp)); }
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