916d7cf9bd
Merge commit 'f6fdb5f55a88f73ef7bef45f50cf5878ceec9781'
417 lines
12 KiB
Markdown
417 lines
12 KiB
Markdown
# Usage
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Inherit `Xbyak::CodeGenerator` class and make the class method.
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```
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#include <xbyak/xbyak.h>
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struct Code : Xbyak::CodeGenerator {
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Code(int x)
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{
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mov(eax, x);
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ret();
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}
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};
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```
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Or you can pass the instance of CodeGenerator without inheriting.
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```
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void genCode(Xbyak::CodeGenerator& code, int x) {
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using namespace Xbyak::util;
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code.mov(eax, x);
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code.ret();
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}
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```
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Make an instance of the class and get the function
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pointer by calling `getCode()` and call it.
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```
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Code c(5);
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int (*f)() = c.getCode<int (*)()>();
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printf("ret=%d\n", f()); // ret = 5
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```
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## Syntax
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Similar to MASM/NASM syntax with parentheses.
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```
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NASM Xbyak
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mov eax, ebx --> mov(eax, ebx);
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inc ecx inc(ecx);
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ret --> ret();
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```
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## Addressing
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Use `qword`, `dword`, `word` and `byte` if it is necessary to specify the size of memory,
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otherwise use `ptr`.
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```
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(ptr|qword|dword|word|byte) [base + index * (1|2|4|8) + displacement]
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[rip + 32bit disp] ; x64 only
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NASM Xbyak
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mov eax, [ebx+ecx] --> mov(eax, ptr [ebx+ecx]);
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mov al, [ebx+ecx] --> mov(al, ptr [ebx + ecx]);
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test byte [esp], 4 --> test(byte [esp], 4);
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inc qword [rax] --> inc(qword [rax]);
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```
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**Note**: `qword`, ... are member variables, then don't use `dword` as unsigned int type.
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### How to use Selector (Segment Register)
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```
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mov eax, [fs:eax] --> putSeg(fs);
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mov(eax, ptr [eax]);
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mov ax, cs --> mov(ax, cs);
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```
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**Note**: Segment class is not derived from `Operand`.
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## AVX
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```
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vaddps(xmm1, xmm2, xmm3); // xmm1 <- xmm2 + xmm3
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vaddps(xmm2, xmm3, ptr [rax]); // use ptr to access memory
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vgatherdpd(xmm1, ptr [ebp + 256 + xmm2*4], xmm3);
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```
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**Note**:
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If `XBYAK_ENABLE_OMITTED_OPERAND` is defined, then you can use two operand version for backward compatibility.
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But the newer version will not support it.
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```
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vaddps(xmm2, xmm3); // xmm2 <- xmm2 + xmm3
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```
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## AVX-512
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```
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vaddpd zmm2, zmm5, zmm30 --> vaddpd(zmm2, zmm5, zmm30);
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vaddpd xmm30, xmm20, [rax] --> vaddpd(xmm30, xmm20, ptr [rax]);
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vaddps xmm30, xmm20, [rax] --> vaddps(xmm30, xmm20, ptr [rax]);
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vaddpd zmm2{k5}, zmm4, zmm2 --> vaddpd(zmm2 | k5, zmm4, zmm2);
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vaddpd zmm2{k5}{z}, zmm4, zmm2 --> vaddpd(zmm2 | k5 | T_z, zmm4, zmm2);
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vaddpd zmm2{k5}{z}, zmm4, zmm2,{rd-sae} --> vaddpd(zmm2 | k5 | T_z, zmm4, zmm2 | T_rd_sae);
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vaddpd(zmm2 | k5 | T_z | T_rd_sae, zmm4, zmm2); // the position of `|` is arbitrary.
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vcmppd k4{k3}, zmm1, zmm2, {sae}, 5 --> vcmppd(k4 | k3, zmm1, zmm2 | T_sae, 5);
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vaddpd xmm1, xmm2, [rax+256] --> vaddpd(xmm1, xmm2, ptr [rax+256]);
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vaddpd xmm1, xmm2, [rax+256]{1to2} --> vaddpd(xmm1, xmm2, ptr_b [rax+256]);
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vaddpd ymm1, ymm2, [rax+256]{1to4} --> vaddpd(ymm1, ymm2, ptr_b [rax+256]);
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vaddpd zmm1, zmm2, [rax+256]{1to8} --> vaddpd(zmm1, zmm2, ptr_b [rax+256]);
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vaddps zmm1, zmm2, [rax+rcx*8+8]{1to16} --> vaddps(zmm1, zmm2, ptr_b [rax+rcx*8+8]);
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vmovsd [rax]{k1}, xmm4 --> vmovsd(ptr [rax] | k1, xmm4);
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vcvtpd2dq xmm16, oword [eax+33] --> vcvtpd2dq(xmm16, xword [eax+33]); // use xword for m128 instead of oword
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vcvtpd2dq(xmm16, ptr [eax+33]); // default xword
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vcvtpd2dq xmm21, [eax+32]{1to2} --> vcvtpd2dq(xmm21, ptr_b [eax+32]);
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vcvtpd2dq xmm0, yword [eax+33] --> vcvtpd2dq(xmm0, yword [eax+33]); // use yword for m256
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vcvtpd2dq xmm19, [eax+32]{1to4} --> vcvtpd2dq(xmm19, yword_b [eax+32]); // use yword_b to broadcast
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vfpclassps k5{k3}, zword [rax+64], 5 --> vfpclassps(k5|k3, zword [rax+64], 5); // specify m512
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vfpclasspd k5{k3}, [rax+64]{1to2}, 5 --> vfpclasspd(k5|k3, xword_b [rax+64], 5); // broadcast 64-bit to 128-bit
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vfpclassps k5{k3}, [rax+64]{1to4}, 5 --> vfpclassps(k5|k3, yword_b [rax+64], 5); // broadcast 64-bit to 256-bit
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vpdpbusd(xm0, xm1, xm2); // default encoding is EVEX
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vpdpbusd(xm0, xm1, xm2, EvexEncoding); // same as the above
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vpdpbusd(xm0, xm1, xm2, VexEncoding); // VEX encoding
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setDefaultEncoding(VexEncoding); // default encoding is VEX
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vpdpbusd(xm0, xm1, xm2); // VEX encoding
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```
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- setDefaultEncoding(PreferredEncoding encoding);
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- Set the default encoding to select EVEX or VEX.
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- The default value is EvexEncoding.
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- This function affects only an instruction that has a PreferredEncoding argument such as vpdpbusd.
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### Remark
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* `k1`, ..., `k7` are opmask registers.
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- `k0` is dealt as no mask.
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- e.g. `vmovaps(zmm0|k0, ptr[rax]);` and `vmovaps(zmm0|T_z, ptr[rax]);` are same to `vmovaps(zmm0, ptr[rax]);`.
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* 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.
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* `k4 | k3` is different from `k3 | k4`.
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* use `ptr_b` for broadcast `{1toX}`. X is automatically determined.
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* specify `xword`/`yword`/`zword(_b)` for m128/m256/m512 if necessary.
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## Label
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Two kinds of Label are supported. (String literal and Label class).
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### String literal
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```
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L("L1");
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jmp("L1");
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jmp("L2");
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...
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a few mnemonics (8-bit displacement jmp)
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...
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L("L2");
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jmp("L3", T_NEAR);
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...
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a lot of mnemonics (32-bit displacement jmp)
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...
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L("L3");
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```
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* Call `hasUndefinedLabel()` to verify your code has no undefined label.
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* you can use a label for immediate value of mov like as `mov(eax, "L2")`.
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### Support `@@`, `@f`, `@b` like MASM
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```
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L("@@"); // <A>
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jmp("@b"); // jmp to <A>
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jmp("@f"); // jmp to <B>
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L("@@"); // <B>
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jmp("@b"); // jmp to <B>
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mov(eax, "@b");
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jmp(eax); // jmp to <B>
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```
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### Local label
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Label symbols beginning with a period between `inLocalLabel()` and `outLocalLabel()`
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are treated as a local label.
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`inLocalLabel()` and `outLocalLabel()` can be nested.
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```
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void func1()
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{
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inLocalLabel();
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L(".lp"); // <A> ; local label
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...
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jmp(".lp"); // jmp to <A>
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L("aaa"); // global label <C>
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outLocalLabel();
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inLocalLabel();
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L(".lp"); // <B> ; local label
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func1();
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jmp(".lp"); // jmp to <B>
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inLocalLabel();
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jmp("aaa"); // jmp to <C>
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}
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```
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### short and long jump
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Xbyak deals with jump mnemonics of an undefined label as short jump if no type is specified.
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So if the size between jmp and label is larger than 127 byte, then xbyak will cause an error.
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```
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jmp("short-jmp"); // short jmp
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// small code
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L("short-jmp");
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jmp("long-jmp");
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// long code
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L("long-jmp"); // throw exception
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```
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Then specify T_NEAR for jmp.
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```
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jmp("long-jmp", T_NEAR); // long jmp
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// long code
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L("long-jmp");
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```
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Or call `setDefaultJmpNEAR(true);` once, then the default type is set to T_NEAR.
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```
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jmp("long-jmp"); // long jmp
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// long code
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L("long-jmp");
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```
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### Label class
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`L()` and `jxx()` support Label class.
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```
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Xbyak::Label label1, label2;
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L(label1);
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...
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jmp(label1);
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...
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jmp(label2);
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...
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L(label2);
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```
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Use `putL` for jmp table
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```
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Label labelTbl, L0, L1, L2;
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mov(rax, labelTbl);
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// rdx is an index of jump table
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jmp(ptr [rax + rdx * sizeof(void*)]);
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L(labelTbl);
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putL(L0);
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putL(L1);
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putL(L2);
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L(L0);
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....
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L(L1);
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....
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```
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`assignL(dstLabel, srcLabel)` binds dstLabel with srcLabel.
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```
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Label label2;
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Label label1 = L(); // make label1 ; same to Label label1; L(label1);
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...
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jmp(label2); // label2 is not determined here
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...
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assignL(label2, label1); // label2 <- label1
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```
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The `jmp` in the above code jumps to label1 assigned by `assignL`.
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**Note**:
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* srcLabel must be used in `L()`.
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* dstLabel must not be used in `L()`.
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`Label::getAddress()` returns the address specified by the label instance and 0 if not specified.
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```
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// not AutoGrow mode
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Label label;
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assert(label.getAddress() == 0);
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L(label);
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assert(label.getAddress() == getCurr());
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```
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### Rip ; relative addressing
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```
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Label label;
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mov(eax, ptr [rip + label]); // eax = 4
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...
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L(label);
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dd(4);
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```
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```
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int x;
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...
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mov(eax, ptr[rip + &x]); // throw exception if the difference between &x and current position is larger than 2GiB
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```
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## Far jump
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Use `word|dword|qword` instead of `ptr` to specify the address size.
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### 32 bit mode
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```
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jmp(word[eax], T_FAR); // jmp m16:16(FF /5)
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jmp(dword[eax], T_FAR); // jmp m16:32(FF /5)
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```
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### 64 bit mode
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```
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jmp(word[rax], T_FAR); // jmp m16:16(FF /5)
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jmp(dword[rax], T_FAR); // jmp m16:32(FF /5)
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jmp(qword[rax], T_FAR); // jmp m16:64(REX.W FF /5)
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```
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The same applies to `call`.
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## Code size
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The default max code size is 4096 bytes.
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Specify the size in constructor of `CodeGenerator()` if necessary.
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```
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class Quantize : public Xbyak::CodeGenerator {
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public:
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Quantize()
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: CodeGenerator(8192)
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{
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}
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...
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};
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```
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## User allocated memory
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You can make jit code on prepared memory.
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Call `setProtectModeRE` yourself to change memory mode if using the prepared memory.
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```
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uint8_t alignas(4096) buf[8192]; // C++11 or later
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struct Code : Xbyak::CodeGenerator {
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Code() : Xbyak::CodeGenerator(sizeof(buf), buf)
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{
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mov(rax, 123);
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ret();
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}
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};
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int main()
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{
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Code c;
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c.setProtectModeRE(); // set memory to Read/Exec
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printf("%d\n", c.getCode<int(*)()>()());
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}
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```
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**Note**: See [../sample/test0.cpp](../sample/test0.cpp).
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### AutoGrow
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The memory region for jit is automatically extended if necessary when `AutoGrow` is specified in a constructor of `CodeGenerator`.
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Call `ready()` or `readyRE()` before calling `getCode()` to fix jump address.
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```
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struct Code : Xbyak::CodeGenerator {
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Code()
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: Xbyak::CodeGenerator(<default memory size>, Xbyak::AutoGrow)
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{
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...
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}
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};
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Code c;
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// generate code for jit
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c.ready(); // mode = Read/Write/Exec
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```
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**Note**:
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* Don't use the address returned by `getCurr()` before calling `ready()` because it may be invalid address.
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### Read/Exec mode
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Xbyak set Read/Write/Exec mode to memory to run jit code.
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If you want to use Read/Exec mode for security, then specify `DontSetProtectRWE` for `CodeGenerator` and
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call `setProtectModeRE()` after generating jit code.
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```
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struct Code : Xbyak::CodeGenerator {
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Code()
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: Xbyak::CodeGenerator(4096, Xbyak::DontSetProtectRWE)
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{
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mov(eax, 123);
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ret();
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}
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};
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Code c;
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c.setProtectModeRE();
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...
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```
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Call `readyRE()` instead of `ready()` when using `AutoGrow` mode.
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See [protect-re.cpp](../sample/protect-re.cpp).
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## Exception-less mode
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If `XBYAK_NO_EXCEPTION` is defined, then gcc/clang can compile xbyak with `-fno-exceptions`.
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In stead of throwing an exception, `Xbyak::GetError()` returns non-zero value (e.g. `ERR_BAD_ADDRESSING`) if there is something wrong.
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The status will not be changed automatically, then you should reset it by `Xbyak::ClearError()`.
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`CodeGenerator::reset()` calls `ClearError()`.
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## Macro
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* **XBYAK32** is defined on 32bit.
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* **XBYAK64** is defined on 64bit.
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* **XBYAK64_WIN** is defined on 64bit Windows(VC).
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* **XBYAK64_GCC** is defined on 64bit gcc, cygwin.
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* define **XBYAK_USE_OP_NAMES** on gcc with `-fno-operator-names` if you want to use `and()`, ....
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* define **XBYAK_ENABLE_OMITTED_OPERAND** if you use omitted destination such as `vaddps(xmm2, xmm3);`(deprecated in the future).
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* define **XBYAK_UNDEF_JNL** if Bessel function jnl is defined as macro.
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* define **XBYAK_NO_EXCEPTION** for a compiler option `-fno-exceptions`.
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* define **XBYAK_USE_MEMFD** on Linux then /proc/self/maps shows the area used by xbyak.
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* define **XBYAK_OLD_DISP_CHECK** if the old disp check is necessary (deprecated in the future).
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## Sample
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* [test0.cpp](../sample/test0.cpp) ; tiny sample (x86, x64)
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* [quantize.cpp](../sample/quantize.cpp) ; JIT optimized quantization by fast division (x86 only)
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* [calc.cpp](../sample/calc.cpp) ; assemble and estimate a given polynomial (x86, x64)
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* [bf.cpp](../sample/bf.cpp) ; JIT brainfuck (x86, x64)
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