/netbsd-current/external/lgpl3/gmp/dist/mpn/generic/ |
H A D | toom4_sqr.c | 102 /* NOTE: The multiplications to v2, vm2, vh and vm1 overwrites the 109 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 125 TOOM4_SQR_REC (vm2, amx, n + 1, tp); /* vm2, 2n+1 limbs */ 162 mpn_toom_interpolate_7pts (pp, n, (enum toom7_flags) 0, vm2, vm1, v2, vh, 2*s, tp);
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H A D | toom52_mul.c | 56 vm2 = (a0-2a1+4a2-8a3+16a4)*(b0-2b1) # A(-2)*B(-2) |ah| <= 20 |bh|<= 1 96 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 213 /* vm2, 2n+1 limbs */ 214 mpn_mul_n (vm2, asm2, bsm2, n+1); /* W2 */ 229 mpn_toom_interpolate_6pts (pp, n, flags, vm1, vm2, v2, t + s); 234 #undef vm2 macro
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H A D | toom43_mul.c | 56 vm2 = (a0-2a1+4a2-8a3)*(b0-2b1+4b2) # A(-2)*B(-2) |ah| <= 9 |bh|<= 4 93 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 190 /* vm2, 2n+1 limbs */ 191 mpn_mul_n (vm2, asm2, bsm2, n+1); /* W2 */ 206 mpn_toom_interpolate_6pts (pp, n, flags, vm1, vm2, v2, t + s); 211 #undef vm2 macro
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H A D | toom44_mul.c | 53 vm2 = ( a0-2a1+4a2-8a3)*( b0-2b1+4b2-8b3) # A(2)*B(2) ah <= 9 |bh| <= 9 92 The other recursive products, vm1, v2, vm2, vh are stored in the 139 /* NOTE: The multiplications to v2, vm2, vh and vm1 overwrites the 146 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 167 TOOM44_MUL_N_REC (vm2, amx, bmx, n + 1, tp); /* vm2, 2n+1 limbs */ 234 mpn_toom_interpolate_7pts (pp, n, flags, vm2, vm1, v2, vh, s + t, tp);
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H A D | toom62_mul.c | 57 vm2 = ( a0- 2a1+4a2-8a3+16a4-32a5)*( b0-2b1) # A(-2)*B(-2) -41<=ah<=20 -1<=bh<=0 247 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 256 mpn_mul_n (vm2, asm2, bsm2, n + 1); /* vm2, 2n+1 limbs */ 307 vm2, vm1, v2, vh, s + t, scratch_out);
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H A D | toom53_mul.c | 56 vm2 = ( a0-2a1+4a2-8a3+16a4)*( b0-2b1+4b2) # A(2)*B(2) -9<=ah<=20 -1<=bh<=4 245 #define vm2 (scratch + 2 * n + 1) /* 2n+1 */ macro 254 mpn_mul_n (vm2, asm2, bsm2, n + 1); /* vm2, 2n+1 limbs */ 327 mpn_toom_interpolate_7pts (pp, n, flags, vm2, vm1, v2, vh, s + t,
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/netbsd-current/sys/kern/ |
H A D | sysv_shm.c | 778 shmfork(struct vmspace *vm1, struct vmspace *vm2) argument 783 SHMPRINTF(("shmfork %p->%p\n", vm1, vm2)); 785 vm2->vm_shm = vm1->vm_shm;
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/netbsd-current/sys/uvm/ |
H A D | uvm_map.c | 4577 struct vmspace *vm2; local 4585 vm2 = uvmspace_alloc(vm_map_min(old_map), vm_map_max(old_map), 4587 memcpy(&vm2->vm_startcopy, &vm1->vm_startcopy, 4589 new_map = &vm2->vm_map; /* XXX */ 4638 (*uvm_shmfork)(vm1, vm2); 4641 pmap_fork(vm1->vm_map.pmap, vm2->vm_map.pmap); 4645 return (vm2);
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/netbsd-current/external/gpl3/gcc.old/dist/gcc/ |
H A D | simplify-rtx.c | 7469 rtx vm2 = gen_rtx_VEC_MERGE (mode, op2, op3, mask1); 7482 rtx nvm = gen_rtx_VEC_MERGE (mode, vm1, vm2, mask1); 7484 ASSERT_EQ (vm2, simplify_merge_mask (nvm, mask1, 1)); 7494 rtx binop = gen_rtx_PLUS (mode, vm1, vm2); 7501 rtx tenop = gen_rtx_FMA (mode, vm1, vm2, vm3); 7458 rtx vm2 = gen_rtx_VEC_MERGE (mode, op2, op3, mask1); local
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/netbsd-current/external/gpl3/gcc/dist/gcc/ |
H A D | simplify-rtx.cc | 8220 rtx vm2 = gen_rtx_VEC_MERGE (mode, op2, op3, mask1); 8233 rtx nvm = gen_rtx_VEC_MERGE (mode, vm1, vm2, mask1); 8235 ASSERT_EQ (vm2, simplify_merge_mask (nvm, mask1, 1)); 8245 rtx binop = gen_rtx_PLUS (mode, vm1, vm2); 8252 rtx tenop = gen_rtx_FMA (mode, vm1, vm2, vm3);
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