// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // +build amd64 // Commented-out code should be ignored. // // TEXT ·unknown(SB),0,$0 // RET TEXT ·arg1(SB),0,$0-2 MOVB x+0(FP), AX // MOVB x+0(FP), AX // commented out instructions used to panic MOVB y+1(FP), BX MOVW x+0(FP), AX // want `\[amd64\] arg1: invalid MOVW of x\+0\(FP\); int8 is 1-byte value` MOVW y+1(FP), AX // want `invalid MOVW of y\+1\(FP\); uint8 is 1-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); int8 is 1-byte value` MOVL y+1(FP), AX // want `invalid MOVL of y\+1\(FP\); uint8 is 1-byte value` MOVQ x+0(FP), AX // want `invalid MOVQ of x\+0\(FP\); int8 is 1-byte value` MOVQ y+1(FP), AX // want `invalid MOVQ of y\+1\(FP\); uint8 is 1-byte value` MOVB x+1(FP), AX // want `invalid offset x\+1\(FP\); expected x\+0\(FP\)` MOVB y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+1\(FP\)` TESTB x+0(FP), AX TESTB y+1(FP), BX TESTW x+0(FP), AX // want `invalid TESTW of x\+0\(FP\); int8 is 1-byte value` TESTW y+1(FP), AX // want `invalid TESTW of y\+1\(FP\); uint8 is 1-byte value` TESTL x+0(FP), AX // want `invalid TESTL of x\+0\(FP\); int8 is 1-byte value` TESTL y+1(FP), AX // want `invalid TESTL of y\+1\(FP\); uint8 is 1-byte value` TESTQ x+0(FP), AX // want `invalid TESTQ of x\+0\(FP\); int8 is 1-byte value` TESTQ y+1(FP), AX // want `invalid TESTQ of y\+1\(FP\); uint8 is 1-byte value` TESTB x+1(FP), AX // want `invalid offset x\+1\(FP\); expected x\+0\(FP\)` TESTB y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+1\(FP\)` MOVB 8(SP), AX // want `8\(SP\) should be x\+0\(FP\)` MOVB 9(SP), AX // want `9\(SP\) should be y\+1\(FP\)` MOVB 10(SP), AX // want `use of 10\(SP\) points beyond argument frame` RET TEXT ·arg2(SB),0,$0-4 MOVB x+0(FP), AX // want `arg2: invalid MOVB of x\+0\(FP\); int16 is 2-byte value` MOVB y+2(FP), AX // want `invalid MOVB of y\+2\(FP\); uint16 is 2-byte value` MOVW x+0(FP), AX MOVW y+2(FP), BX MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); int16 is 2-byte value` MOVL y+2(FP), AX // want `invalid MOVL of y\+2\(FP\); uint16 is 2-byte value` MOVQ x+0(FP), AX // want `invalid MOVQ of x\+0\(FP\); int16 is 2-byte value` MOVQ y+2(FP), AX // want `invalid MOVQ of y\+2\(FP\); uint16 is 2-byte value` MOVW x+2(FP), AX // want `invalid offset x\+2\(FP\); expected x\+0\(FP\)` MOVW y+0(FP), AX // want `invalid offset y\+0\(FP\); expected y\+2\(FP\)` TESTB x+0(FP), AX // want `invalid TESTB of x\+0\(FP\); int16 is 2-byte value` TESTB y+2(FP), AX // want `invalid TESTB of y\+2\(FP\); uint16 is 2-byte value` TESTW x+0(FP), AX TESTW y+2(FP), BX TESTL x+0(FP), AX // want `invalid TESTL of x\+0\(FP\); int16 is 2-byte value` TESTL y+2(FP), AX // want `invalid TESTL of y\+2\(FP\); uint16 is 2-byte value` TESTQ x+0(FP), AX // want `invalid TESTQ of x\+0\(FP\); int16 is 2-byte value` TESTQ y+2(FP), AX // want `invalid TESTQ of y\+2\(FP\); uint16 is 2-byte value` TESTW x+2(FP), AX // want `invalid offset x\+2\(FP\); expected x\+0\(FP\)` TESTW y+0(FP), AX // want `invalid offset y\+0\(FP\); expected y\+2\(FP\)` RET TEXT ·arg4(SB),0,$0-2 // want `arg4: wrong argument size 2; expected \$\.\.\.-8` MOVB x+0(FP), AX // want `invalid MOVB of x\+0\(FP\); int32 is 4-byte value` MOVB y+4(FP), BX // want `invalid MOVB of y\+4\(FP\); uint32 is 4-byte value` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); int32 is 4-byte value` MOVW y+4(FP), AX // want `invalid MOVW of y\+4\(FP\); uint32 is 4-byte value` MOVL x+0(FP), AX MOVL y+4(FP), AX MOVQ x+0(FP), AX // want `invalid MOVQ of x\+0\(FP\); int32 is 4-byte value` MOVQ y+4(FP), AX // want `invalid MOVQ of y\+4\(FP\); uint32 is 4-byte value` MOVL x+4(FP), AX // want `invalid offset x\+4\(FP\); expected x\+0\(FP\)` MOVL y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+4\(FP\)` TESTB x+0(FP), AX // want `invalid TESTB of x\+0\(FP\); int32 is 4-byte value` TESTB y+4(FP), BX // want `invalid TESTB of y\+4\(FP\); uint32 is 4-byte value` TESTW x+0(FP), AX // want `invalid TESTW of x\+0\(FP\); int32 is 4-byte value` TESTW y+4(FP), AX // want `invalid TESTW of y\+4\(FP\); uint32 is 4-byte value` TESTL x+0(FP), AX TESTL y+4(FP), AX TESTQ x+0(FP), AX // want `invalid TESTQ of x\+0\(FP\); int32 is 4-byte value` TESTQ y+4(FP), AX // want `invalid TESTQ of y\+4\(FP\); uint32 is 4-byte value` TESTL x+4(FP), AX // want `invalid offset x\+4\(FP\); expected x\+0\(FP\)` TESTL y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+4\(FP\)` RET TEXT ·arg8(SB),7,$0-2 // want `wrong argument size 2; expected \$\.\.\.-16` MOVB x+0(FP), AX // want `invalid MOVB of x\+0\(FP\); int64 is 8-byte value` MOVB y+8(FP), BX // want `invalid MOVB of y\+8\(FP\); uint64 is 8-byte value` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); int64 is 8-byte value` MOVW y+8(FP), AX // want `invalid MOVW of y\+8\(FP\); uint64 is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); int64 is 8-byte value` MOVL y+8(FP), AX // want `invalid MOVL of y\+8\(FP\); uint64 is 8-byte value` MOVQ x+0(FP), AX MOVQ y+8(FP), AX MOVQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` MOVQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` TESTB x+0(FP), AX // want `invalid TESTB of x\+0\(FP\); int64 is 8-byte value` TESTB y+8(FP), BX // want `invalid TESTB of y\+8\(FP\); uint64 is 8-byte value` TESTW x+0(FP), AX // want `invalid TESTW of x\+0\(FP\); int64 is 8-byte value` TESTW y+8(FP), AX // want `invalid TESTW of y\+8\(FP\); uint64 is 8-byte value` TESTL x+0(FP), AX // want `invalid TESTL of x\+0\(FP\); int64 is 8-byte value` TESTL y+8(FP), AX // want `invalid TESTL of y\+8\(FP\); uint64 is 8-byte value` TESTQ x+0(FP), AX TESTQ y+8(FP), AX TESTQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` TESTQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` RET TEXT ·argint(SB),0,$0-2 // want `wrong argument size 2; expected \$\.\.\.-16` MOVB x+0(FP), AX // want `invalid MOVB of x\+0\(FP\); int is 8-byte value` MOVB y+8(FP), BX // want `invalid MOVB of y\+8\(FP\); uint is 8-byte value` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); int is 8-byte value` MOVW y+8(FP), AX // want `invalid MOVW of y\+8\(FP\); uint is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); int is 8-byte value` MOVL y+8(FP), AX // want `invalid MOVL of y\+8\(FP\); uint is 8-byte value` MOVQ x+0(FP), AX MOVQ y+8(FP), AX MOVQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` MOVQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` TESTB x+0(FP), AX // want `invalid TESTB of x\+0\(FP\); int is 8-byte value` TESTB y+8(FP), BX // want `invalid TESTB of y\+8\(FP\); uint is 8-byte value` TESTW x+0(FP), AX // want `invalid TESTW of x\+0\(FP\); int is 8-byte value` TESTW y+8(FP), AX // want `invalid TESTW of y\+8\(FP\); uint is 8-byte value` TESTL x+0(FP), AX // want `invalid TESTL of x\+0\(FP\); int is 8-byte value` TESTL y+8(FP), AX // want `invalid TESTL of y\+8\(FP\); uint is 8-byte value` TESTQ x+0(FP), AX TESTQ y+8(FP), AX TESTQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` TESTQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` RET TEXT ·argptr(SB),7,$0-2 // want `wrong argument size 2; expected \$\.\.\.-40` MOVB x+0(FP), AX // want `invalid MOVB of x\+0\(FP\); \*byte is 8-byte value` MOVB y+8(FP), BX // want `invalid MOVB of y\+8\(FP\); \*byte is 8-byte value` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); \*byte is 8-byte value` MOVW y+8(FP), AX // want `invalid MOVW of y\+8\(FP\); \*byte is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); \*byte is 8-byte value` MOVL y+8(FP), AX // want `invalid MOVL of y\+8\(FP\); \*byte is 8-byte value` MOVQ x+0(FP), AX MOVQ y+8(FP), AX MOVQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` MOVQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` TESTB x+0(FP), AX // want `invalid TESTB of x\+0\(FP\); \*byte is 8-byte value` TESTB y+8(FP), BX // want `invalid TESTB of y\+8\(FP\); \*byte is 8-byte value` TESTW x+0(FP), AX // want `invalid TESTW of x\+0\(FP\); \*byte is 8-byte value` TESTW y+8(FP), AX // want `invalid TESTW of y\+8\(FP\); \*byte is 8-byte value` TESTL x+0(FP), AX // want `invalid TESTL of x\+0\(FP\); \*byte is 8-byte value` TESTL y+8(FP), AX // want `invalid TESTL of y\+8\(FP\); \*byte is 8-byte value` TESTQ x+0(FP), AX TESTQ y+8(FP), AX TESTQ x+8(FP), AX // want `invalid offset x\+8\(FP\); expected x\+0\(FP\)` TESTQ y+2(FP), AX // want `invalid offset y\+2\(FP\); expected y\+8\(FP\)` MOVL c+16(FP), AX // want `invalid MOVL of c\+16\(FP\); chan int is 8-byte value` MOVL m+24(FP), AX // want `invalid MOVL of m\+24\(FP\); map\[int\]int is 8-byte value` MOVL f+32(FP), AX // want `invalid MOVL of f\+32\(FP\); func\(\) is 8-byte value` RET TEXT ·argstring(SB),0,$32 // want `wrong argument size 0; expected \$\.\.\.-32` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); string base is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); string base is 8-byte value` LEAQ x+0(FP), AX // ok MOVQ x+0(FP), AX MOVW x_base+0(FP), AX // want `invalid MOVW of x_base\+0\(FP\); string base is 8-byte value` MOVL x_base+0(FP), AX // want `invalid MOVL of x_base\+0\(FP\); string base is 8-byte value` MOVQ x_base+0(FP), AX MOVW x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVL x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVQ x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVW x_len+8(FP), AX // want `invalid MOVW of x_len\+8\(FP\); string len is 8-byte value` MOVL x_len+8(FP), AX // want `invalid MOVL of x_len\+8\(FP\); string len is 8-byte value` MOVQ x_len+8(FP), AX MOVQ y+0(FP), AX // want `invalid offset y\+0\(FP\); expected y\+16\(FP\)` MOVQ y_len+8(FP), AX // want `invalid offset y_len\+8\(FP\); expected y_len\+24\(FP\)` RET TEXT ·argslice(SB),0,$48 // want `wrong argument size 0; expected \$\.\.\.-48` MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); slice base is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); slice base is 8-byte value` MOVQ x+0(FP), AX MOVW x_base+0(FP), AX // want `invalid MOVW of x_base\+0\(FP\); slice base is 8-byte value` MOVL x_base+0(FP), AX // want `invalid MOVL of x_base\+0\(FP\); slice base is 8-byte value` MOVQ x_base+0(FP), AX MOVW x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVL x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVQ x_len+0(FP), AX // want `invalid offset x_len\+0\(FP\); expected x_len\+8\(FP\)` MOVW x_len+8(FP), AX // want `invalid MOVW of x_len\+8\(FP\); slice len is 8-byte value` MOVL x_len+8(FP), AX // want `invalid MOVL of x_len\+8\(FP\); slice len is 8-byte value` MOVQ x_len+8(FP), AX MOVW x_cap+0(FP), AX // want `invalid offset x_cap\+0\(FP\); expected x_cap\+16\(FP\)` MOVL x_cap+0(FP), AX // want `invalid offset x_cap\+0\(FP\); expected x_cap\+16\(FP\)` MOVQ x_cap+0(FP), AX // want `invalid offset x_cap\+0\(FP\); expected x_cap\+16\(FP\)` MOVW x_cap+16(FP), AX // want `invalid MOVW of x_cap\+16\(FP\); slice cap is 8-byte value` MOVL x_cap+16(FP), AX // want `invalid MOVL of x_cap\+16\(FP\); slice cap is 8-byte value` MOVQ x_cap+16(FP), AX MOVQ y+0(FP), AX // want `invalid offset y\+0\(FP\); expected y\+24\(FP\)` MOVQ y_len+8(FP), AX // want `invalid offset y_len\+8\(FP\); expected y_len\+32\(FP\)` MOVQ y_cap+16(FP), AX // want `invalid offset y_cap\+16\(FP\); expected y_cap\+40\(FP\)` RET TEXT ·argiface(SB),0,$0-32 MOVW x+0(FP), AX // want `invalid MOVW of x\+0\(FP\); interface type is 8-byte value` MOVL x+0(FP), AX // want `invalid MOVL of x\+0\(FP\); interface type is 8-byte value` MOVQ x+0(FP), AX MOVW x_type+0(FP), AX // want `invalid MOVW of x_type\+0\(FP\); interface type is 8-byte value` MOVL x_type+0(FP), AX // want `invalid MOVL of x_type\+0\(FP\); interface type is 8-byte value` MOVQ x_type+0(FP), AX MOVQ x_itable+0(FP), AX // want `unknown variable x_itable; offset 0 is x_type\+0\(FP\)` MOVQ x_itable+1(FP), AX // want `unknown variable x_itable; offset 1 is x_type\+0\(FP\)` MOVW x_data+0(FP), AX // want `invalid offset x_data\+0\(FP\); expected x_data\+8\(FP\)` MOVL x_data+0(FP), AX // want `invalid offset x_data\+0\(FP\); expected x_data\+8\(FP\)` MOVQ x_data+0(FP), AX // want `invalid offset x_data\+0\(FP\); expected x_data\+8\(FP\)` MOVW x_data+8(FP), AX // want `invalid MOVW of x_data\+8\(FP\); interface data is 8-byte value` MOVL x_data+8(FP), AX // want `invalid MOVL of x_data\+8\(FP\); interface data is 8-byte value` MOVQ x_data+8(FP), AX MOVW y+16(FP), AX // want `invalid MOVW of y\+16\(FP\); interface itable is 8-byte value` MOVL y+16(FP), AX // want `invalid MOVL of y\+16\(FP\); interface itable is 8-byte value` MOVQ y+16(FP), AX MOVW y_itable+16(FP), AX // want `invalid MOVW of y_itable\+16\(FP\); interface itable is 8-byte value` MOVL y_itable+16(FP), AX // want `invalid MOVL of y_itable\+16\(FP\); interface itable is 8-byte value` MOVQ y_itable+16(FP), AX MOVQ y_type+16(FP), AX // want `unknown variable y_type; offset 16 is y_itable\+16\(FP\)` MOVW y_data+16(FP), AX // want `invalid offset y_data\+16\(FP\); expected y_data\+24\(FP\)` MOVL y_data+16(FP), AX // want `invalid offset y_data\+16\(FP\); expected y_data\+24\(FP\)` MOVQ y_data+16(FP), AX // want `invalid offset y_data\+16\(FP\); expected y_data\+24\(FP\)` MOVW y_data+24(FP), AX // want `invalid MOVW of y_data\+24\(FP\); interface data is 8-byte value` MOVL y_data+24(FP), AX // want `invalid MOVL of y_data\+24\(FP\); interface data is 8-byte value` MOVQ y_data+24(FP), AX RET TEXT ·argcomplex(SB),0,$24 // want `wrong argument size 0; expected \$\.\.\.-24` MOVSS x+0(FP), X0 // want `invalid MOVSS of x\+0\(FP\); complex64 is 8-byte value containing x_real\+0\(FP\) and x_imag\+4\(FP\)` MOVSS x_real+0(FP), X0 MOVSD x_real+0(FP), X0 // want `invalid MOVSD of x_real\+0\(FP\); real\(complex64\) is 4-byte value` MOVSS x_real+4(FP), X0 // want `invalid offset x_real\+4\(FP\); expected x_real\+0\(FP\)` MOVSS x_imag+4(FP), X0 MOVSD x_imag+4(FP), X0 // want `invalid MOVSD of x_imag\+4\(FP\); imag\(complex64\) is 4-byte value` MOVSS x_imag+8(FP), X0 // want `invalid offset x_imag\+8\(FP\); expected x_imag\+4\(FP\)` MOVSD y+8(FP), X0 // want `invalid MOVSD of y\+8\(FP\); complex128 is 16-byte value containing y_real\+8\(FP\) and y_imag\+16\(FP\)` MOVSS y_real+8(FP), X0 // want `invalid MOVSS of y_real\+8\(FP\); real\(complex128\) is 8-byte value` MOVSD y_real+8(FP), X0 MOVSS y_real+16(FP), X0 // want `invalid offset y_real\+16\(FP\); expected y_real\+8\(FP\)` MOVSS y_imag+16(FP), X0 // want `invalid MOVSS of y_imag\+16\(FP\); imag\(complex128\) is 8-byte value` MOVSD y_imag+16(FP), X0 MOVSS y_imag+24(FP), X0 // want `invalid offset y_imag\+24\(FP\); expected y_imag\+16\(FP\)` // Loading both parts of a complex is ok: see issue 35264. MOVSD x+0(FP), X0 MOVO y+8(FP), X0 MOVOU y+8(FP), X0 // These are not ok. MOVO x+0(FP), X0 // want `invalid MOVO of x\+0\(FP\); complex64 is 8-byte value containing x_real\+0\(FP\) and x_imag\+4\(FP\)` MOVOU x+0(FP), X0 // want `invalid MOVOU of x\+0\(FP\); complex64 is 8-byte value containing x_real\+0\(FP\) and x_imag\+4\(FP\)` RET TEXT ·argstruct(SB),0,$64 // want `wrong argument size 0; expected \$\.\.\.-24` MOVQ x+0(FP), AX // want `invalid MOVQ of x\+0\(FP\); a.S is 24-byte value` MOVQ x_i+0(FP), AX // want `invalid MOVQ of x_i\+0\(FP\); int32 is 4-byte value` MOVQ x_b+0(FP), AX // want `invalid offset x_b\+0\(FP\); expected x_b\+4\(FP\)` MOVQ x_s+8(FP), AX MOVQ x_s_base+8(FP), AX MOVQ x_s+16(FP), AX // want `invalid offset x_s\+16\(FP\); expected x_s\+8\(FP\), x_s_base\+8\(FP\), or x_s_len\+16\(FP\)` MOVQ x_s_len+16(FP), AX RET TEXT ·argarray(SB),0,$64 // want `wrong argument size 0; expected \$\.\.\.-48` MOVQ x+0(FP), AX // want `invalid MOVQ of x\+0\(FP\); \[2\]a.S is 48-byte value` MOVQ x_0_i+0(FP), AX // want `invalid MOVQ of x_0_i\+0\(FP\); int32 is 4-byte value` MOVQ x_0_b+0(FP), AX // want `invalid offset x_0_b\+0\(FP\); expected x_0_b\+4\(FP\)` MOVQ x_0_s+8(FP), AX MOVQ x_0_s_base+8(FP), AX MOVQ x_0_s+16(FP), AX // want `invalid offset x_0_s\+16\(FP\); expected x_0_s\+8\(FP\), x_0_s_base\+8\(FP\), or x_0_s_len\+16\(FP\)` MOVQ x_0_s_len+16(FP), AX MOVB foo+25(FP), AX // want `unknown variable foo; offset 25 is x_1_i\+24\(FP\)` MOVQ x_1_s+32(FP), AX MOVQ x_1_s_base+32(FP), AX MOVQ x_1_s+40(FP), AX // want `invalid offset x_1_s\+40\(FP\); expected x_1_s\+32\(FP\), x_1_s_base\+32\(FP\), or x_1_s_len\+40\(FP\)` MOVQ x_1_s_len+40(FP), AX RET TEXT ·returnint(SB),0,$0-8 MOVB AX, ret+0(FP) // want `invalid MOVB of ret\+0\(FP\); int is 8-byte value` MOVW AX, ret+0(FP) // want `invalid MOVW of ret\+0\(FP\); int is 8-byte value` MOVL AX, ret+0(FP) // want `invalid MOVL of ret\+0\(FP\); int is 8-byte value` MOVQ AX, ret+0(FP) MOVQ AX, ret+1(FP) // want `invalid offset ret\+1\(FP\); expected ret\+0\(FP\)` MOVQ AX, r+0(FP) // want `unknown variable r; offset 0 is ret\+0\(FP\)` RET TEXT ·returnbyte(SB),0,$0-9 MOVQ x+0(FP), AX MOVB AX, ret+8(FP) MOVW AX, ret+8(FP) // want `invalid MOVW of ret\+8\(FP\); byte is 1-byte value` MOVL AX, ret+8(FP) // want `invalid MOVL of ret\+8\(FP\); byte is 1-byte value` MOVQ AX, ret+8(FP) // want `invalid MOVQ of ret\+8\(FP\); byte is 1-byte value` MOVB AX, ret+7(FP) // want `invalid offset ret\+7\(FP\); expected ret\+8\(FP\)` RET TEXT ·returnnamed(SB),0,$0-41 MOVB x+0(FP), AX MOVQ AX, r1+8(FP) MOVW AX, r2+16(FP) MOVQ AX, r3+24(FP) MOVQ AX, r3_base+24(FP) MOVQ AX, r3_len+32(FP) MOVB AX, r4+40(FP) MOVL AX, r1+8(FP) // want `invalid MOVL of r1\+8\(FP\); int is 8-byte value` RET TEXT ·returnintmissing(SB),0,$0-8 RET // want `RET without writing to 8-byte ret\+0\(FP\)` // issue 15271 TEXT ·f15271(SB), NOSPLIT, $0-4 // Stick 123 into the low 32 bits of X0. MOVQ $123, AX PINSRD $0, AX, X0 // Return them. PEXTRD $0, X0, x+0(FP) RET // issue 17584 TEXT ·f17584(SB), NOSPLIT, $12 MOVSS x+0(FP), X0 MOVSS y_real+4(FP), X0 MOVSS y_imag+8(FP), X0 RET // issue 29318 TEXT ·f29318(SB), NOSPLIT, $32 MOVQ x_0_1+8(FP), AX MOVQ x_1_1+24(FP), CX RET // ABI selector TEXT ·pickStableABI(SB), NOSPLIT, $32 MOVQ x+0(FP), AX RET // ABI selector TEXT ·pickInternalABI(SB), NOSPLIT, $32 MOVQ x+0(FP), AX RET // ABI selector TEXT ·pickFutureABI(SB), NOSPLIT, $32 MOVQ x+0(FP), AX RET // return jump TEXT ·retjmp(SB), NOSPLIT, $0-8 RET retjmp1(SB) // It's okay to not write results if there's a tail call.