/toolchain/binutils/binutils-2.27/gas/testsuite/gas/bfin/ |
logical2.s | 11 R7 = R7 & R7; 12 R7 = R7 & R0; 13 r7 = R7 & R1; define 15 R1 = R7 & R7; 16 R2 = R7 & R0 [all...] |
bit2.s | 10 BITCLR ( R7 , 0 ) ; 11 BITCLR ( R7 , 31 ) ; 12 BITCLR ( R7 , 15 ) ; 18 BITSET ( R7 , 0 ) ; 19 BITSET ( R7 , 31 ) ; 20 BITSET ( R7 , 15 ) ; 26 BITTGL ( R7 , 0 ) ; 27 BITTGL ( R7 , 31 ) ; 28 BITTGL ( R7 , 15 ) ; 34 CC = BITTST ( R7 , 0 ) [all...] |
logical2.d | 9 0: ff 55 R7 = R7 & R7; 10 2: c7 55 R7 = R7 & R0; 11 4: cf 55 R7 = R7 & R1; 12 6: 7f 54 R1 = R7 & R7; 13 8: 87 54 R2 = R7 & R0 [all...] |
bit2.d | 8 0: 07 4c BITCLR \(R7, 0x0\);.* 9 2: ff 4c BITCLR \(R7, 0x1f\);.* 10 4: 7f 4c BITCLR \(R7, 0xf\);.* 14 c: 07 4a BITSET \(R7, 0x0\);.* 15 e: ff 4a BITSET \(R7, 0x1f\);.* 16 10: 7f 4a BITSET \(R7, 0xf\);.* 20 18: 07 4b BITTGL \(R7, 0x0\);.* 21 1a: ff 4b BITTGL \(R7, 0x1f\);.* 22 1c: 7f 4b BITTGL \(R7, 0xf\);.* 26 24: 07 49 CC = BITTST \(R7, 0x0\);. [all...] |
control_code2.s | 10 CC = R7 == R0; 12 CC = R0 == R7; 15 CC = R7 == -4; 16 CC = R7 == 3; 21 CC = R7 < R0; 23 CC = R7 < R1; 24 CC = R1 < R7; 28 CC = R7 < -4; 30 CC = R7 < 3; 34 CC = R7 <= R0 [all...] |
vector2.d | 8 0: 0c c4 13 0e R7.H = R7.L = SIGN \(R2.H\) \* R3.H \+ SIGN \(R2.L\) \* R3.L; 11 c: 0c c4 38 0c R6.H = R6.L = SIGN \(R7.H\) \* R0.H \+ SIGN \(R7.L\) \* R0.L; 14 18: 0c c4 01 0e R7.H = R7.L = SIGN \(R0.H\) \* R1.H \+ SIGN \(R0.L\) \* R1.L; 17 24: 09 c6 01 ce R7 = VIT_MAX \(R1, R0\) \(ASR\); 20 30: 09 c6 07 8c R6 = VIT_MAX \(R7, R0\) \(ASL\); 23 3c: 09 c6 08 ce R7 = VIT_MAX \(R0, R1\) \(ASR\); 25 44: 09 c6 3e ca R5 = VIT_MAX \(R6, R7\) \(ASR\) [all...] |
vector.d | 11 4: 09 c6 15 8e R7 = VIT_MAX \(R5, R2\) \(ASL\); 23 24: 00 c4 06 8e R7 = R0 -\|\+ R6; 28 38: 00 c4 2e de R7 = R5 -\|- R6 \(CO\); 29 3c: 01 c4 63 bf R5 = R4 \+\|\+ R3, R7 = R4 -\|- R3 \(SCO, ASR\); 31 44: 21 c4 ca 2d R7 = R1 \+\|- R2, R6 = R1 -\|\+ R2 \(S\); 34 50: 04 c4 39 a6 R0 = R7 \+ R1, R3 = R7 - R1 \(S\); 35 54: 11 c4 [c-f][[:xdigit:]] 0b R7 = A1 \+ A0, R5 = A1 - A0 \(NS\); 43 6c: 01 c6 15 0e R7 = ASHIFT R5 BY R2.L \(V\); 55 84: 06 c4 17 40 R0 = MIN \(R2, R7\) \(V\) [all...] |
stack.d | 9 4: 47 01 \[--SP\] = R7; 17 10: d0 05 \[--SP\] = \(R7:2, P5:0\); 18 12: 70 05 \[--SP\] = \(R7:6\); 31 24: a8 05 \(R7:5, P5:0\) = \[SP\+\+\]; 32 26: 30 05 \(R7:6\) = \[SP\+\+\];
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shift.d | 10 4: 4f 41 R7 = \(R7 \+ R1\) << 0x2; 22 1c: 82 c6 fd 4e R7 = R5 << 0x1f \(S\); 31 38: 00 c6 07 6e R7.H = ASHIFT R7.L BY R0.L \(S\); 32 3c: 00 c6 07 6e R7.H = ASHIFT R7.L BY R0.L \(S\); 45 5e: ff 4f R7 <<= 0x1f; 47 64: 80 c6 00 8e R7.L = R0.L << 0x0; 54 80: 7d 40 R5 >>= R7; [all...] |
bit.d | 15 8: b7 4b BITTGL \(R7, 0x16\);.* 21 10: 7f 49 CC = BITTST \(R7, 0xf\);.* 25 16: 0a c6 37 c0 R0 = DEPOSIT \(R7, R6\) \(X\); 30 22: 0a c6 23 4e R7 = EXTRACT \(R3, R4.L\) \(X\); 37 36: 08 c6 3e 40 BITMUX \(R7, R6, A0\) \(ASL\); 41 3e: 06 c6 02 ce R7.L = ONES R2;
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stack.s | 6 [--sp] = R7; 16 [--sp] = (r7:2, p5:0); 17 [--SP] = (R7:6); 34 (R7:5, P5:0) = [sp++]; 35 (r7:6) = [SP++];
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parallel3.d | 10 8: 09 ce 15 8e R7 = VIT_MAX \(R5, R2\) \(ASL\) \|\| \[P0\+\+\] = P0 \|\| NOP; 26 48: 00 cc 06 8e R7 = R0 -\|\+ R6 \|\| \[P1\+\+\] = P0 \|\| NOP; 36 70: 00 cc 2e de R7 = R5 -\|- R6 \(CO\) \|\| \[P2\] = P0 \|\| NOP; 38 78: 01 cc 63 bf R5 = R4 \+\|\+ R3, R7 = R4 -\|- R3 \(SCO, ASR\) \|\| \[P2\+\+\] = P0 \|\| NOP; 42 88: 21 cc ca 2d R7 = R1 \+\|- R2, R6 = R1 -\|\+ R2 \(S\) \|\| \[P2 \+ 0x24\] = P0 \|\| NOP; 48 a0: 04 cc 39 a6 R0 = R7 \+ R1, R3 = R7 - R1 \(S\) \|\| \[P3\+\+\] = P0 \|\| NOP; 50 a8: 11 cc ff 0b R7 = A1 \+ A0, R5 = A1 - A0 \(NS\) \|\| \[P3--\] = P0 \|\| NOP; 62 d8: 01 ce 15 0e R7 = ASHIFT R5 BY R2.L \(V\) \|\| \[P4 \+ 0x18\] = P0 \|\| NOP; 74 108: 06 cc 17 40 R0 = MIN \(R2, R7\) \(V\) \|\| \[P5--\] = P0 \|\| NOP [all...] |
arithmetic.d | 20 1e: 04 c4 3a 0e R7 = R7 \+ R2 \(NS\); 29 3a: 05 c4 3d d2 R1.L = R7 - R5 \(RND20\); 33 42: 25 c4 3e 0e R7.H = R7 \+ R6 \(RND12\); 63 7c: 07 c4 38 48 R4 = MIN \(R7, R0\); 80 a0: 0b c4 [0-3][[:xdigit:]] 0e R7 = \(A0 \+= A1\); 87 b4: 80 c2 db 23 R7.L = R3.L \* R3.H \(FU\); 91 c4: 94 c3 be 40 R2.H = R7.L \* R6.H \(M, IU\); 94 d0: 1c c3 3e 80 R1 = R7.H \* R6.L \(M, IS\) [all...] |
/external/libxaac/decoder/armv7/ |
ixheaacd_conv_ergtoamplitude.s | 37 LDRSH R7, [R2], #2 44 SUB R7, R7, R8 53 TST R7, #1 54 ADDNE R7, R7, #3 58 MOV R9, R7, ASR #1 65 LDRSH R7, [R3], #2 72 SUB R7, R7, R [all...] |
ixheaacd_conv_ergtoamplitudelp.s | 42 LDRSH R7, [R2, #2] 45 SUB R7, R7, R8 50 TST R7, #1 53 ADDNE R7, R7, #3 54 MOV R14, R7, ASR #1 68 LDRSH R7, [R3, #2] 71 SUB R7, R7, R [all...] |
ixheaacd_no_lap1.s | 35 MOV R7, R3, LSL #1 58 VST1.16 D27[0], [R1], R7 61 VST1.16 D27[1], [R1], R7 63 VST1.16 D27[2], [R1], R7 65 VST1.16 D27[3], [R1], R7 73 VST1.16 D21[0], [R1], R7 76 VST1.16 D21[1], [R1], R7 78 VST1.16 D21[2], [R1], R7 80 VST1.16 D21[3], [R1], R7 90 VST1.16 D27[0], [R1], R7 [all...] |
ixheaacd_apply_rot.s | 34 LDRSH R7, [R11, #-96] 38 ADD R10, R7, R8 44 LDRSH R7, [R11] 48 ADD R10, R7, R8 53 LDRSH R7, [R11, #-96] 57 ADD R10, R7, R8 64 LDRSH R7, [R11] 68 ADD R10, R7, R8 81 LDR R7, [R11], #4 85 SMULWB R9, R5, R7 [all...] |
/prebuilts/go/darwin-x86/src/runtime/ |
memmove_s390x.s | 21 MOVD 0(R4), R7 23 MOVD R7, 0(R6) 29 ADD R5, R4, R7 30 CMPBLE R7, R6, forwards 33 MOVD -8(R7), R3 35 MOVD -16(R7), R3 38 ADD $-16, R7 86 MOVB 2(R4), R7 88 MOVB R7, 2(R6) 99 MOVB 4(R4), R7 [all...] |
memmove_arm64.s | 17 AND $~7, R5, R7 // R7 is N&~7 21 SUB R7, R5, R6 // R6 is N&7 26 // Copying forward proceeds by copying R7/8 words then copying R6 bytes. 34 CMP $0, R7 // Do we need to do any word-by-word copying? 37 ADD R3, R7, R9 // R9 points just past where we copy by word 61 // Copying backwards proceeds by copying R6 bytes then copying R7/8 words. 79 CMP $0, R7 // Do we need to do any word-by-word copying? 84 SUB R7, R3, R9 // R9 points at the lowest destination byte
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/prebuilts/go/linux-x86/src/runtime/ |
memmove_s390x.s | 21 MOVD 0(R4), R7 23 MOVD R7, 0(R6) 29 ADD R5, R4, R7 30 CMPBLE R7, R6, forwards 33 MOVD -8(R7), R3 35 MOVD -16(R7), R3 38 ADD $-16, R7 86 MOVB 2(R4), R7 88 MOVB R7, 2(R6) 99 MOVB 4(R4), R7 [all...] |
memmove_arm64.s | 17 AND $~7, R5, R7 // R7 is N&~7 21 SUB R7, R5, R6 // R6 is N&7 26 // Copying forward proceeds by copying R7/8 words then copying R6 bytes. 34 CMP $0, R7 // Do we need to do any word-by-word copying? 37 ADD R3, R7, R9 // R9 points just past where we copy by word 61 // Copying backwards proceeds by copying R6 bytes then copying R7/8 words. 79 CMP $0, R7 // Do we need to do any word-by-word copying? 84 SUB R7, R3, R9 // R9 points at the lowest destination byte
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/prebuilts/go/darwin-x86/src/reflect/ |
asm_arm.s | 14 MOVW R7, 4(R13) 26 MOVW R7, 4(R13)
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/prebuilts/go/linux-x86/src/reflect/ |
asm_arm.s | 14 MOVW R7, 4(R13) 26 MOVW R7, 4(R13)
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/prebuilts/go/darwin-x86/src/math/big/ |
arith_ppc64x.s | 17 MULLD R4, R5, R7 19 MOVD R7, z0+24(FP) 25 MOVD z_len+8(FP), R7 33 MOVD R7, CTR 35 CMP R0, R7 55 MOVD z_len+8(FP), R7 63 MOVD R7, CTR 65 CMP R0, R7 115 MULHDU R9, R20, R7 // R7 = z1 = High-order(x[i]*y [all...] |
/prebuilts/go/linux-x86/src/math/big/ |
arith_ppc64x.s | 17 MULLD R4, R5, R7 19 MOVD R7, z0+24(FP) 25 MOVD z_len+8(FP), R7 33 MOVD R7, CTR 35 CMP R0, R7 55 MOVD z_len+8(FP), R7 63 MOVD R7, CTR 65 CMP R0, R7 115 MULHDU R9, R20, R7 // R7 = z1 = High-order(x[i]*y [all...] |