Xbyak 5.41 ; JIT assembler for x86(IA32), x64(AMD64, x86-64) by C++
=============
Abstract
-------------
This is a header file which enables dynamically to assemble x86(IA32), x64(AMD64, x86-64) mnemonic.
Feature
-------------
header file only
you can use Xbyak's functions at once if xbyak.h is included.
### Supported Instructions Sets
MMX/MMX2/SSE/SSE2/SSE3/SSSE3/SSE4/FPU(*partial*)/AVX/AVX2/FMA/VEX-encoded GPR/AVX-512
### Supported OS
* Windows Xp, Vista, Windows 7(32bit, 64bit)
* Linux(32bit, 64bit)
* Intel Mac OSX
### Supported Compilers
* Visual Studio C++ VC2012 or later
* gcc 4.7 or later
* clang 3.3
* cygwin gcc 4.5.3
* icc 7.2
>Note: Xbyak uses and(), or(), xor(), not() functions, so "-fno-operator-names" option is required on gcc.
Or define XBYAK_NO_OP_NAMES and use and_(), or_(), xor_(), not_() instead of them.
and_(), or_(), xor_(), not_() are always available.
Install
-------------
The following files are necessary. Please add the path to your compile directories.
* xbyak.h
* xbyak_mnemonic.h
Linux:
make install
These files are copied into /usr/local/include/xbyak
New Feature
-------------
Add support for AVX-512 instruction set.
Syntax
-------------
Make Xbyak::CodeGenerator and make the class method and get the function
pointer by calling cgetCode() and casting the return value.
NASM Xbyak
mov eax, ebx --> mov(eax, ebx);
inc ecx inc(ecx);
ret --> ret();
### Addressing
(ptr|dword|word|byte) [base + index * (1|2|4|8) + displacement]
[rip + 32bit disp] ; x64 only
NASM Xbyak
mov eax, [ebx+ecx] --> mov (eax, ptr[ebx+ecx]);
test byte [esp], 4 --> test (byte [esp], 4);
How to use Selector(Segment Register)
>Note: Segment class is not derived from Operand.
```
mov eax, [fs:eax] --> putSeg(fs); mov(eax, ptr [eax]);
mov ax, cs --> mov(ax, cs);
```
>you can use ptr for almost memory access unless you specify the size of memory.
>dword, word and byte are member variables, then don't use dword as unsigned int, for example.
### AVX
vaddps(xmm1, xmm2, xmm3); // xmm1 <- xmm2 + xmm3
vaddps(xmm2, xmm3, ptr [rax]); // use ptr to access memory
vgatherdpd(xmm1, ptr [ebp+123+xmm2*4], xmm3);
*Remark*
The omitted destination syntax as the following ss disabled.
```
vaddps(xmm2, xmm3); // xmm2 <- xmm2 + xmm3
```
define `XBYAK_ENABLE_OMITTED_OPERAND` if you use it for backward compatibility.
But the newer version will not support it.
### AVX-512
```
vaddpd zmm2, zmm5, zmm30 --> vaddpd(zmm2, zmm5, zmm30);
vaddpd xmm30, xmm20, [rax] --> vaddpd(xmm30, xmm20, ptr [rax]);
vaddps xmm30, xmm20, [rax] --> vaddps(xmm30, xmm20, ptr [rax]);
vaddpd zmm2{k5}, zmm4, zmm2 --> vaddpd(zmm2 | k5, zmm4, zmm2);
vaddpd zmm2{k5}{z}, zmm4, zmm2 --> vaddpd(zmm2 | k5 | T_z, zmm4, zmm2);
vaddpd zmm2{k5}{z}, zmm4, zmm2,{rd-sae} --> vaddpd(zmm2 | k5 | T_z, zmm4, zmm2 | T_rd_sae);
vaddpd(zmm2 | k5 | T_z | T_rd_sae, zmm4, zmm2); // the position of `|` is arbitrary.
vcmppd k4{k3}, zmm1, zmm2, {sae}, 5 --> vcmppd(k4 | k3, zmm1, zmm2 | T_sae, 5);
vaddpd xmm1, xmm2, [rax+256] --> vaddpd(xmm1, xmm2, ptr [rax+256]);
vaddpd xmm1, xmm2, [rax+256]{1to2} --> vaddpd(xmm1, xmm2, ptr_b [rax+256]);
vaddpd ymm1, ymm2, [rax+256]{1to4} --> vaddpd(ymm1, ymm2, ptr_b [rax+256]);
vaddpd zmm1, zmm2, [rax+256]{1to8} --> vaddpd(zmm1, zmm2, ptr_b [rax+256]);
vaddps zmm1, zmm2, [rax+rcx*8+8]{1to16} --> vaddps(zmm1, zmm2, ptr_b [rax+rcx*8+8]);
vmovsd [rax]{k1}, xmm4 --> vmovsd(ptr [rax] | k1, xmm4);
vcvtpd2dq xmm16, oword [eax+33] --> vcvtpd2dq(xmm16, xword [eax+33]); // use xword for m128 instead of oword
vcvtpd2dq(xmm16, ptr [eax+33]); // default xword
vcvtpd2dq xmm21, [eax+32]{1to2} --> vcvtpd2dq(xmm21, ptr_b [eax+32]);
vcvtpd2dq xmm0, yword [eax+33] --> vcvtpd2dq(xmm0, yword [eax+33]); // use yword for m256
vcvtpd2dq xmm19, [eax+32]{1to4} --> vcvtpd2dq(xmm19, yword_b [eax+32]); // use yword_b to broadcast
vfpclassps k5{k3}, zword [rax+64], 5 --> vfpclassps(k5|k3, zword [rax+64], 5); // specify m512
vfpclasspd k5{k3}, [rax+64]{1to2}, 5 --> vfpclasspd(k5|k3, xword_b [rax+64], 5); // broadcast 64-bit to 128-bit
vfpclassps k5{k3}, [rax+64]{1to4}, 5 --> vfpclassps(k5|k3, xword_b [rax+64], 5); // broadcast 32-bit to 128-bit
```
Remark
* k1, ..., k7 are new opmask registers.
* use `| T_z`, `| T_sae`, `| T_rn_sae`, `| T_rd_sae`, `| T_ru_sae`, `| T_rz_sae` instead of `,{z}`, `,{sae}`, `,{rn-sae}`, `,{rd-sae}`, `,{ru-sae}`, `,{rz-sae}` respectively.
* `k4 | k3` is different from `k3 | k4`.
* use `ptr_b` for broadcast `{1toX}`. X is automatically determined.
* specify xword/yword/zword(_b) for m128/m256/m512 if necessary.
### Label
L("L1");
jmp ("L1");
jmp ("L2");
...
a few mnemonics(8-bit displacement jmp)
...
L("L2");
jmp ("L3", T_NEAR);
...
a lot of mnemonics(32-bit displacement jmp)
...
L("L3");
>Call hasUndefinedLabel() to verify your code has no undefined label.
> you can use a label for immediate value of mov like as mov (eax, "L2");
#### 1. support @@, @f, @b like MASM
L("@@"); //
jmp("@b"); // jmp to
jmp("@f"); // jmp to
L("@@"); //
jmp("@b"); // jmp to
mov(eax, "@b");
jmp(eax); // jmp to
#### 2. localization of label by calling inLocalLabel(), outLocallabel().
labels begining of period between inLocalLabel() and outLocalLabel()
are dealed with local label.
inLocalLabel() and outLocalLabel() can be nested.
void func1()
{
inLocalLabel();
L(".lp"); // ; local label
...
jmp(".lp"); // jmpt to
L("aaa"); // global label
outLocalLabel();
}
void func2()
{
inLocalLabel();
L(".lp"); // ; local label
func1();
jmp(".lp"); // jmp to
inLocalLabel();
}
### Label class
L() and jxx() functions support a new Label class.
Label label1, label2;
L(label1);
...
jmp(label1);
...
jmp(label2);
...
L(label2);
Moreover, assignL(dstLabel, srcLabel) method binds dstLabel with srcLabel.
Label label1, label2;
L(label1);
...
jmp(label2);
...
assignL(label2, label1); // label2 <= label1
The above jmp opecode jumps label1.
* Restriction:
* srcLabel must be used in L().
* dstLabel must not be used in L().
Label::getAddress() returns the address specified by the label instance and 0 if not specified.
```
// not AutoGrow mode
Label label;
assert(label.getAddress() == 0);
L(label);
assert(label.getAddress() == getCurr());
```
### Rip
```
Label label;
mov(eax, ptr [rip + label]); // eax = 4
...
L(label);
dd(4);
```
```
int x;
...
mov(eax, ptr[rip + &x]); // throw exception if the difference between &x and current position is larger than 2GiB
```
### Code size
The default max code size is 4096 bytes. Please set it in constructor of CodeGenerator() if you want to use large size.
class Quantize : public Xbyak::CodeGenerator {
public:
Quantize()
: CodeGenerator(8192)
{
}
...
};
### use user allocated memory
You can make jit code on prepaired memory.
class Sample : public Xbyak::CodeGenerator {
public:
Sample(void *userPtr, size_t size)
: Xbyak::CodeGenerator(size, userPtr)
{
...
}
};
const size_t codeSize = 1024;
uint8 buf[codeSize + 16];
// get 16-byte aligned address
uint8 *p = Xbyak::CodeArray::getAlignedAddress(buf);
// append executable attribute to the memory
Xbyak::CodeArray::protect(p, codeSize, true);
// construct your jit code on the memory
Sample s(p, codeSize);
>See *sample/test0.cpp*
AutoGrow
-------------
Under `AutoGrow` mode, Xbyak extends memory automatically if necessary.
Call ready() before calling getCode() to calc address of jmp.
```
struct Code : Xbyak::CodeGenerator {
Code()
: Xbyak::CodeGenerator(, Xbyak::AutoGrow)
{
...
}
};
Code c;
c.ready(); // Don't forget to call this function
```
>Don't use the address returned by getCurr() before calling ready().
>It may be invalid address.
>RESTRICTION : rip addressing is not supported in AutoGrow
Macro
-------------
* **XBYAK32** is defined on 32bit.
* **XBYAK64** is defined on 64bit.
* **XBYAK64_WIN** is defined on 64bit Windows(VC)
* **XBYAK64_GCC** is defined on 64bit gcc, cygwin
* define **XBYAK_NO_OP_NAMES** on gcc without `-fno-operator-names`
* define **XBYAK_ENABLE_OMITTED_OPERAND** if you use omitted destination such as `vaddps(xmm2, xmm3);`(duplicated in the future)
Sample
-------------
* test0.cpp ; tiny sample of Xbyak(x86, x64)
* quantize.cpp ; JIT optimized quantization by fast division(x86 only)
* calc.cpp ; assemble and estimate a given polynomial(x86, x64)
* bf.cpp ; JIT brainfuck(x86, x64)
License
-------------
modified new BSD License
http://opensource.org/licenses/BSD-3-Clause
The files under test/cybozu/ are copied from cybozulib(https://github.com/herumi/cybozulib/),
which is licensed by BSD-3-Clause and are used for only tests.
The header files under xbyak/ are independent of cybozulib.
History
-------------
* 2017/Jan/26 ver 5.41 add prefetchwt1 and support for scale == 0(thanks to rsdubtso)
* 2016/Dec/14 ver 5.40 add Label::getAddress() method to get the pointer specified by the label
* 2016/Dec/09 ver 5.34 fix handling of negative offsets when encoding disp8N(thanks to rsdubtso)
* 2016/Dec/08 ver 5.33 fix encoding of vpbroadcast{b,w,d,q}, vpinsr{b,w}, vpextr{b,w} for disp8N
* 2016/Dec/01 ver 5.32 rename __xgetbv() to _xgetbv() to support clang for Visual Studio(thanks to freiro)
* 2016/Nov/27 ver 5.31 rename AVX512_4VNNI to AVX512_4VNNIW
* 2016/Nov/27 ver 5.30 add AVX512_4VNNI, AVX512_4FMAPS instructions(thanks to rsdubtso)
* 2016/Nov/26 ver 5.20 add detection of AVX512_4VNNI and AVX512_4FMAPS(thanks to rsdubtso)
* 2016/Nov/20 ver 5.11 lost vptest for ymm(thanks to gregory38)
* 2016/Nov/20 ver 5.10 add addressing [rip+&var]
* 2016/Sep/29 ver 5.03 fix detection ERR_INVALID_OPMASK_WITH_MEMORY(thanks to PVS-Studio)
* 2016/Aug/15 ver 5.02 xbyak does not include xbyak_bin2hex.h
* 2016/Aug/15 ver 5.011 fix detection of version of gcc 5.4
* 2016/Aug/03 ver 5.01 disable omitted operand
* 2016/Jun/24 ver 5.00 support avx-512 instruction set
* 2016/Jun/13 avx-512 add mask instructions
* 2016/May/05 ver 4.91 add detection of AVX-512 to Xbyak::util::Cpu
* 2016/Mar/14 ver 4.901 comment to ready() function(thanks to skmp)
* 2016/Feb/04 ver 4.90 add jcc(const void *addr);
* 2016/Jan/30 ver 4.89 vpblendvb supports ymm reg(thanks to John Funnell)
* 2016/Jan/24 ver 4.88 lea, cmov supports 16-bit register(thanks to whyisthisfieldhere)
* 2015/Oct/05 ver 4.87 support segment selectors
* 2015/Aug/18 ver 4.86 fix [rip + label] addressing with immediate value(thanks to whyisthisfieldhere)
* 2015/Aug/10 ver 4.85 Address::operator==() is not correct(thanks to inolen)
* 2015/Jun/22 ver 4.84 call() support variadic template if available(thanks to randomstuff)
* 2015/Jun/16 ver 4.83 support movbe(thanks to benvanik)
* 2015/May/24 ver 4.82 support detection of F16C
* 2015/Apr/25 ver 4.81 fix the condition to throw exception for setSize(thanks to whyisthisfieldhere)
* 2015/Apr/22 ver 4.80 rip supports label(thanks to whyisthisfieldhere)
* 2015/Jar/28 ver 4.71 support adcx, adox, cmpxchg, rdseed, stac
* 2014/Oct/14 ver 4.70 support MmapAllocator
* 2014/Jun/13 ver 4.62 disable warning of VC2014
* 2014/May/30 ver 4.61 support bt, bts, btr, btc
* 2014/May/28 ver 4.60 support vcvtph2ps, vcvtps2ph
* 2014/Apr/11 ver 4.52 add detection of rdrand
* 2014/Mar/25 ver 4.51 remove state information of unreferenced labels
* 2014/Mar/16 ver 4.50 support new Label
* 2014/Mar/05 ver 4.40 fix wrong detection of BMI/enhanced rep on VirtualBox
* 2013/Dec/03 ver 4.30 support Reg::cvt8(), cvt16(), cvt32(), cvt64()
* 2013/Oct/16 ver 4.21 label support std::string
* 2013/Jul/30 ver 4.20 [break backward compatibility] split Reg32e class into RegExp(base+index*scale+disp) and Reg32e(means Reg32 or Reg64)
* 2013/Jul/04 ver 4.10 [break backward compatibility] change the type of Xbyak::Error from enum to a class
* 2013/Jun/21 ver 4.02 add putL(LABEL) function to put the address of the label
* 2013/Jun/21 ver 4.01 vpsllw, vpslld, vpsllq, vpsraw, vpsrad, vpsrlw, vpsrld, vpsrlq support (ymm, ymm, xmm).
support vpbroadcastb, vpbroadcastw, vpbroadcastd, vpbroadcastq(thanks to Gabest).
* 2013/May/30 ver 4.00 support AVX2, VEX-encoded GPR-instructions
* 2013/Mar/27 ver 3.80 support mov(reg, "label");
* 2013/Mar/13 ver 3.76 add cqo(), jcxz(), jecxz(), jrcxz()
* 2013/Jan/15 ver 3.75 add setSize() to modify generated code
* 2013/Jan/12 ver 3.74 add CodeGenerator::reset() ; add Allocator::useProtect()
* 2013/Jan/06 ver 3.73 use unordered_map if possible
* 2012/Dec/04 ver 3.72 eax, ebx, ... are member variables of CodeGenerator(revert), Xbyak::util::eax, ... are static const.
* 2012/Nov/17 ver 3.71 and_(), or_(), xor_(), not_() are available if XBYAK_NO_OP_NAMES is not defined.
* 2012/Nov/17 change eax, ebx, ptr and so on in CodeGenerator as static member and alias of them are defined in Xbyak::util.
* 2012/Nov/09 ver 3.70 XBYAK_NO_OP_NAMES macro is added to use and_() instead of and() (thanks to Mattias)
* 2012/Nov/01 ver 3.62 add fwait/fnwait/finit/fninit
* 2012/Nov/01 ver 3.61 add fldcw/fstcw
* 2012/May/03 ver 3.60 change interface of Allocator
* 2012/Mar/23 ver 3.51 fix userPtr mode
* 2012/Mar/19 ver 3.50 support AutoGrow mode
* 2011/Nov/09 ver 3.05 fix bit property of rip addresing / support movsxd
* 2011/Aug/15 ver 3.04 fix dealing with imm8 such as add(dword [ebp-8], 0xda); (thanks to lolcat)
* 2011/Jun/16 ver 3.03 fix __GNUC_PREREQ macro for Mac gcc(thanks to t_teruya)
* 2011/Apr/28 ver 3.02 do not use xgetbv on Mac gcc
* 2011/May/24 ver 3.01 fix typo of OSXSAVE
* 2011/May/23 ver 3.00 add vcmpeqps and so on
* 2011/Feb/16 ver 2.994 beta add vmovq for 32-bit mode(I forgot it)
* 2011/Feb/16 ver 2.993 beta remove cvtReg to avoid thread unsafe
* 2011/Feb/10 ver 2.992 beta support one argument syntax for fadd like nasm
* 2011/Feb/07 ver 2.991 beta fix pextrw reg, xmm, imm(Thanks to Gabest)
* 2011/Feb/04 ver 2.99 beta support AVX
* 2010/Dec/08 ver 2.31 fix ptr [rip + 32bit offset], support rdtscp
* 2010/Oct/19 ver 2.30 support pclmulqdq, aesdec, aesdeclast, aesenc, aesenclast, aesimc, aeskeygenassist
* 2010/Jun/07 ver 2.29 fix call(