11 files changed, 5555 insertions, 0 deletions
diff --git a/Asm/arm/7zCrcOpt.asm b/Asm/arm/7zCrcOpt.asm
new file mode 100644
index 0000000..6001d8e
--- /dev/null
+++ b/Asm/arm/7zCrcOpt.asm
@@ -0,0 +1,100 @@
+        CODE32
+        EXPORT  |CrcUpdateT4@16|
+        AREA    |.text|, CODE, ARM
+        MACRO
+        CRC32_STEP_1
+        ldrb    r4, [r1], #1
+        subs    r2, r2, #1
+        eor     r4, r4, r0
+        and     r4, r4, #0xFF
+        ldr     r4, [r3, +r4, lsl #2]
+        eor     r0, r4, r0, lsr #8
+        MEND
+        MACRO
+        CRC32_STEP_4 $STREAM_WORD
+        
+        eor     r7, r7, r8
+        eor     r7, r7, r9
+        eor     r0, r0, r7
+        eor     r0, r0, $STREAM_WORD
+        ldr     $STREAM_WORD, [r1], #4
+        
+        and     r7, r0, #0xFF
+        and     r8, r0, #0xFF00
+        and     r9, r0, #0xFF0000
+        and     r0, r0, #0xFF000000
+        ldr     r7, [r6, +r7, lsl #2]
+        ldr     r8, [r5, +r8, lsr #6]
+        ldr     r9, [r4, +r9, lsr #14]
+        ldr     r0, [r3, +r0, lsr #22]
+        
+        MEND
+|CrcUpdateT4@16| PROC
+        stmdb   sp!, {r4-r11, lr}
+        cmp     r2, #0
+        beq     |$fin|
+|$v1|
+        tst     r1, #7
+        beq     |$v2|
+        CRC32_STEP_1
+        bne     |$v1|
+|$v2|
+        cmp     r2, #16
+        blo     |$v3|
+        ldr     r10, [r1], #4
+        ldr     r11, [r1], #4
+        add     r4, r3, #0x400 
+        add     r5, r3, #0x800
+        add     r6, r3, #0xC00
+        mov     r7, #0
+        mov     r8, #0
+        mov     r9, #0
+        sub     r2, r2, #16
+|$loop|
+        ; pld     [r1, #0x40]
+        CRC32_STEP_4 r10
+        CRC32_STEP_4 r11
+        subs    r2, r2, #8
+        bhs     |$loop|
+        sub     r1, r1, #8
+        add     r2, r2, #16
+        eor     r7, r7, r8
+        eor     r7, r7, r9
+        eor     r0, r0, r7
+|$v3|
+        cmp     r2, #0
+        beq     |$fin|
+|$v4|
+        CRC32_STEP_1
+        bne     |$v4|
+|$fin|
+        ldmia   sp!, {r4-r11, pc}
+|CrcUpdateT4@16| ENDP
+        END
diff --git a/Asm/arm64/7zAsm.S b/Asm/arm64/7zAsm.S
new file mode 100644
index 0000000..12e950b
--- /dev/null
+++ b/Asm/arm64/7zAsm.S
@@ -0,0 +1,181 @@
+// 7zAsm.S -- ASM macros for arm64
+// 2021-04-25 : Igor Pavlov : Public domain
+#define  r0 x0
+#define  r1 x1
+#define  r2 x2
+#define  r3 x3
+#define  r4 x4
+#define  r5 x5
+#define  r6 x6
+#define  r7 x7
+#define  r8 x8
+#define  r9 x9
+#define  r10 x10
+#define  r11 x11
+#define  r12 x12
+#define  r13 x13
+#define  r14 x14
+#define  r15 x15
+#define  r16 x16
+#define  r17 x17
+#define  r18 x18
+#define  r19 x19
+#define  r20 x20
+#define  r21 x21
+#define  r22 x22
+#define  r23 x23
+#define  r24 x24
+#define  r25 x25
+#define  r26 x26
+#define  r27 x27
+#define  r28 x28
+#define  r29 x29
+#define  r30 x30
+#define  REG_ABI_PARAM_0 r0
+#define  REG_ABI_PARAM_1 r1
+#define  REG_ABI_PARAM_2 r2
+.macro p2_add reg:req, param:req
+        add     \reg, \reg, \param
+.endm
+.macro p2_sub reg:req, param:req
+        sub     \reg, \reg, \param
+.endm
+.macro p2_sub_s reg:req, param:req
+        subs    \reg, \reg, \param
+.endm
+.macro p2_and reg:req, param:req
+        and     \reg, \reg, \param
+.endm
+.macro xor reg:req, param:req
+        eor     \reg, \reg, \param
+.endm
+.macro or reg:req, param:req
+        orr     \reg, \reg, \param
+.endm
+.macro shl reg:req, param:req
+        lsl     \reg, \reg, \param
+.endm
+.macro shr reg:req, param:req
+        lsr     \reg, \reg, \param
+.endm
+.macro sar reg:req, param:req
+        asr     \reg, \reg, \param
+.endm
+.macro p1_neg reg:req
+        neg     \reg, \reg
+.endm
+.macro dec reg:req
+        sub     \reg, \reg, 1
+.endm
+.macro dec_s reg:req
+        subs    \reg, \reg, 1
+.endm
+.macro inc reg:req
+        add     \reg, \reg, 1
+.endm
+.macro inc_s reg:req
+        adds    \reg, \reg, 1
+.endm
+.macro imul reg:req, param:req
+        mul     \reg, \reg, \param
+.endm
+/*
+arm64 and arm use reverted c flag after subs/cmp instructions:
+  arm64-arm   :     x86
+ b.lo / b.cc  :  jb  / jc
+ b.hs / b.cs  :  jae / jnc
+*/ 
+.macro jmp lab:req
+        b       \lab
+.endm
+.macro je lab:req
+        b.eq    \lab
+.endm
+.macro jz lab:req
+        b.eq    \lab
+.endm
+.macro jnz lab:req
+        b.ne    \lab
+.endm
+.macro jne lab:req
+        b.ne    \lab
+.endm
+.macro jb lab:req
+        b.lo    \lab
+.endm
+.macro jbe lab:req
+        b.ls    \lab
+.endm
+.macro ja lab:req
+        b.hi    \lab
+.endm
+.macro jae lab:req
+        b.hs    \lab
+.endm
+.macro cmove dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, eq
+.endm
+.macro cmovne dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, ne
+.endm
+.macro cmovs dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, mi
+.endm
+.macro cmovns dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, pl
+.endm
+.macro cmovb dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, lo
+.endm
+.macro cmovae dest:req, srcTrue:req
+        csel    \dest, \srcTrue, \dest, hs
+.endm
+.macro MY_ALIGN_16 macro
+        .p2align 4,, (1 << 4) - 1
+.endm
+.macro MY_ALIGN_32 macro
+        .p2align 5,, (1 << 5) - 1
+.endm
+.macro MY_ALIGN_64 macro
+        .p2align 6,, (1 << 6) - 1
+.endm
diff --git a/Asm/arm64/LzmaDecOpt.S b/Asm/arm64/LzmaDecOpt.S
new file mode 100644
index 0000000..10dc473
--- /dev/null
+++ b/Asm/arm64/LzmaDecOpt.S
@@ -0,0 +1,1487 @@
+// LzmaDecOpt.S -- ARM64-ASM version of LzmaDec_DecodeReal_3() function
+// 2021-04-25 : Igor Pavlov : Public domain
+/*
+; 3 - is the code compatibility version of LzmaDec_DecodeReal_*()
+; function for check at link time.
+; That code is tightly coupled with LzmaDec_TryDummy()
+; and with another functions in LzmaDec.c file.
+; CLzmaDec structure, (probs) array layout, input and output of
+; LzmaDec_DecodeReal_*() must be equal in both versions (C / ASM).
+*/
+#include "7zAsm.S"
+        // .arch armv8-a
+        // .file        "LzmaDecOpt.c"
+        .text
+        .align  2
+        .p2align 4,,15
+#ifdef __APPLE__
+        .globl _LzmaDec_DecodeReal_3
+#else        
+        .global LzmaDec_DecodeReal_3
+#endif        
+        // .type LzmaDec_DecodeReal_3, %function
+// #define _LZMA_SIZE_OPT 1
+#define LZMA_USE_4BYTES_FILL 1
+// #define LZMA_USE_2BYTES_COPY 1
+// #define LZMA_USE_CMOV_LZ_WRAP 1
+// #define _LZMA_PROB32 1
+#define MY_ALIGN_FOR_ENTRY   MY_ALIGN_32
+#define MY_ALIGN_FOR_LOOP    MY_ALIGN_32
+#define MY_ALIGN_FOR_LOOP_16 MY_ALIGN_16
+#ifdef _LZMA_PROB32
+        .equ PSHIFT , 2
+        .macro PLOAD dest:req, mem:req
+                ldr     \dest, [\mem]
+        .endm
+        .macro PLOAD_PREINDEXED dest:req, mem:req, offset:req
+                ldr     \dest, [\mem, \offset]!
+        .endm
+        .macro PLOAD_2 dest:req, mem1:req, mem2:req
+                ldr     \dest, [\mem1, \mem2]
+        .endm
+        .macro PLOAD_LSL dest:req, mem1:req, mem2:req
+                ldr     \dest, [\mem1, \mem2, lsl #PSHIFT]
+        .endm
+        .macro PSTORE src:req, mem:req
+                str     \src, [\mem]
+        .endm
+        .macro PSTORE_2 src:req, mem1:req, mem2:req
+                str     \src, [\mem1, \mem2]
+        .endm
+        .macro PSTORE_LSL src:req, mem1:req, mem2:req
+                str     \src, [\mem1, \mem2, lsl #PSHIFT]
+        .endm
+        .macro PSTORE_LSL_M1 src:req, mem1:req, mem2:req, temp_reg:req
+                // you must check that temp_reg is free register when macro is used
+                add     \temp_reg, \mem1, \mem2
+                str     \src, [\temp_reg, \mem2]
+        .endm
+#else
+        // .equ PSHIFT  , 1
+        #define PSHIFT  1
+        .macro PLOAD dest:req, mem:req
+                ldrh    \dest, [\mem]
+        .endm
+        .macro PLOAD_PREINDEXED dest:req, mem:req, offset:req
+                ldrh    \dest, [\mem, \offset]!
+        .endm
+        .macro PLOAD_2 dest:req, mem1:req, mem2:req
+                ldrh    \dest, [\mem1, \mem2]
+        .endm
+        .macro PLOAD_LSL dest:req, mem1:req, mem2:req
+                ldrh    \dest, [\mem1, \mem2, lsl #PSHIFT]
+        .endm
+        .macro PSTORE src:req, mem:req
+                strh    \src, [\mem]
+        .endm
+        .macro PSTORE_2 src:req, mem1:req, mem2:req
+                strh    \src, [\mem1, \mem2]
+        .endm
+        .macro PSTORE_LSL src:req, mem1:req, mem2:req
+                strh    \src, [\mem1, \mem2, lsl #PSHIFT]
+        .endm
+        .macro PSTORE_LSL_M1 src:req, mem1:req, mem2:req, temp_reg:req
+                strh    \src, [\mem1, \mem2]
+        .endm
+#endif
+.equ PMULT    , (1 << PSHIFT)
+.equ PMULT_2  , (2 << PSHIFT)
+.equ kMatchSpecLen_Error_Data , (1 << 9)
+#       x7      t0 : NORM_CALC    : prob2 (IF_BIT_1)
+#       x6      t1 : NORM_CALC    : probs_state
+#       x8      t2 : (LITM) temp  : (TREE) temp
+#       x4      t3 : (LITM) bit   : (TREE) temp : UPDATE_0/UPDATE_0 temp
+#       x10     t4 : (LITM) offs  : (TREE) probs_PMULT : numBits
+#       x9      t5 : (LITM) match : sym2 (ShortDist)
+#       x1      t6 : (LITM) litm_prob : (TREE) prob_reg : pbPos
+#       x2      t7 : (LITM) prm   : probBranch  : cnt
+#       x3      sym : dist
+#       x12     len
+#       x0      range
+#       x5      cod
+#define range   w0
+// t6
+#define pbPos     w1
+#define pbPos_R   r1
+#define prob_reg  w1
+#define litm_prob    prob_reg
+// t7
+#define probBranch    w2
+#define cnt     w2
+#define cnt_R   r2
+#define prm     r2
+#define sym     w3
+#define sym_R   r3
+#define dist       sym
+#define t3      w4
+#define bit     w4
+#define bit_R   r4
+#define update_temp_reg  r4
+#define cod     w5
+#define t1      w6
+#define t1_R    r6
+#define probs_state  t1_R
+#define t0      w7
+#define t0_R    r7
+#define prob2      t0
+#define t2      w8
+#define t2_R    r8 
+// t5
+#define match   w9
+#define sym2    w9
+#define sym2_R  r9
+#define t4      w10
+#define t4_R    r10
+#define offs    w10
+#define offs_R  r10
+#define probs   r11
+#define len     w12
+#define len_R   x12
+#define state   w13
+#define state_R r13
+#define dicPos          r14
+#define buf             r15
+#define bufLimit        r16
+#define dicBufSize      r17
+#define limit           r19
+#define rep0            w20
+#define rep0_R          r20
+#define rep1            w21
+#define rep2            w22
+#define rep3            w23
+#define dic             r24
+#define probs_IsMatch   r25
+#define probs_Spec      r26
+#define checkDicSize    w27
+#define processedPos    w28
+#define pbMask          w29
+#define lc2_lpMask      w30
+.equ kNumBitModelTotalBits   , 11
+.equ kBitModelTotal          , (1 << kNumBitModelTotalBits)
+.equ kNumMoveBits            , 5
+.equ kBitModelOffset         , (kBitModelTotal - (1 << kNumMoveBits) + 1)
+.macro NORM_2 macro
+        ldrb    t0, [buf], 1
+        shl     range, 8
+        orr     cod, t0, cod, lsl 8
+        /*
+        mov     t0, cod
+        ldrb    cod, [buf], 1
+        shl     range, 8
+        bfi     cod, t0, #8, #24
+        */
+.endm
+.macro TEST_HIGH_BYTE_range macro
+        tst     range, 0xFF000000
+.endm   
+.macro NORM macro
+        TEST_HIGH_BYTE_range
+        jnz     1f
+        NORM_2
+1:
+.endm
+# ---------- Branch MACROS ----------
+.macro UPDATE_0__0
+        sub     prob2, probBranch, kBitModelOffset
+.endm
+.macro UPDATE_0__1
+        sub     probBranch, probBranch, prob2, asr #(kNumMoveBits)
+.endm
+.macro UPDATE_0__2 probsArray:req, probOffset:req, probDisp:req
+     .if \probDisp == 0
+        PSTORE_2  probBranch, \probsArray, \probOffset
+    .elseif \probOffset == 0
+        PSTORE_2  probBranch, \probsArray, \probDisp * PMULT
+    .else
+        .error "unsupported"
+        // add     update_temp_reg, \probsArray, \probOffset
+        PSTORE_2  probBranch, update_temp_reg, \probDisp * PMULT
+    .endif
+.endm
+.macro UPDATE_0 probsArray:req, probOffset:req, probDisp:req
+        UPDATE_0__0
+        UPDATE_0__1
+        UPDATE_0__2 \probsArray, \probOffset, \probDisp
+.endm
+.macro UPDATE_1 probsArray:req, probOffset:req, probDisp:req
+        // sub     cod, cod, prob2
+        // sub     range, range, prob2
+        p2_sub  cod, range
+        sub     range, prob2, range
+        sub     prob2, probBranch, probBranch, lsr #(kNumMoveBits)
+    .if \probDisp == 0
+        PSTORE_2  prob2, \probsArray, \probOffset
+    .elseif \probOffset == 0
+        PSTORE_2  prob2, \probsArray, \probDisp * PMULT
+    .else
+        .error "unsupported"
+        // add     update_temp_reg, \probsArray, \probOffset
+        PSTORE_2  prob2, update_temp_reg, \probDisp * PMULT
+    .endif
+.endm
+.macro CMP_COD_BASE
+        NORM
+        // lsr     prob2, range, kNumBitModelTotalBits
+        // imul    prob2, probBranch
+        // cmp     cod, prob2
+        mov     prob2, range
+        shr     range, kNumBitModelTotalBits
+        imul    range, probBranch
+        cmp     cod, range
+.endm
+.macro CMP_COD_1 probsArray:req
+        PLOAD   probBranch, \probsArray
+        CMP_COD_BASE
+.endm
+.macro CMP_COD_3 probsArray:req, probOffset:req, probDisp:req
+    .if \probDisp == 0
+        PLOAD_2 probBranch, \probsArray, \probOffset
+    .elseif \probOffset == 0
+        PLOAD_2 probBranch, \probsArray, \probDisp * PMULT
+    .else
+        .error "unsupported"
+        add     update_temp_reg, \probsArray, \probOffset
+        PLOAD_2 probBranch, update_temp_reg, \probDisp * PMULT
+    .endif
+        CMP_COD_BASE
+.endm
+.macro IF_BIT_1_NOUP probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        CMP_COD_3 \probsArray, \probOffset, \probDisp
+        jae     \toLabel
+.endm
+.macro IF_BIT_1 probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        IF_BIT_1_NOUP \probsArray, \probOffset, \probDisp, \toLabel
+        UPDATE_0 \probsArray, \probOffset, \probDisp
+.endm
+.macro IF_BIT_0_NOUP probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        CMP_COD_3 \probsArray, \probOffset, \probDisp
+        jb      \toLabel
+.endm
+.macro IF_BIT_0_NOUP_1 probsArray:req, toLabel:req
+        CMP_COD_1 \probsArray
+        jb      \toLabel
+.endm
+# ---------- CMOV MACROS ----------
+.macro NORM_LSR
+        NORM
+        lsr     t0, range, #kNumBitModelTotalBits
+.endm
+.macro COD_RANGE_SUB
+        subs    t1, cod, t0
+        p2_sub  range, t0
+.endm
+.macro RANGE_IMUL prob:req
+        imul    t0, \prob
+.endm
+.macro NORM_CALC prob:req
+        NORM_LSR
+        RANGE_IMUL \prob
+        COD_RANGE_SUB
+.endm
+.macro CMOV_range
+        cmovb   range, t0
+.endm
+.macro CMOV_code
+        cmovae  cod, t1
+.endm
+.macro CMOV_code_Model_Pre prob:req
+        sub     t0, \prob, kBitModelOffset
+        CMOV_code
+        cmovae  t0, \prob
+.endm
+        
+.macro PUP_BASE_2 prob:req, dest_reg:req
+        # only sar works for both 16/32 bit prob modes
+        sub     \dest_reg, \prob, \dest_reg, asr #(kNumMoveBits)
+.endm
+.macro PUP prob:req, probPtr:req, mem2:req
+        PUP_BASE_2 \prob, t0
+        PSTORE_2   t0, \probPtr, \mem2
+.endm
+#define probs_PMULT t4_R
+.macro BIT_01
+        add     probs_PMULT, probs, PMULT
+.endm
+.macro BIT_0_R prob:req
+        PLOAD_2 \prob, probs, 1 * PMULT
+        NORM_LSR
+            sub     t3, \prob, kBitModelOffset
+        RANGE_IMUL  \prob
+            PLOAD_2 t2, probs, 1 * PMULT_2
+        COD_RANGE_SUB
+        CMOV_range
+            cmovae  t3, \prob
+        PLOAD_2 t0, probs, 1 * PMULT_2 + PMULT
+            PUP_BASE_2 \prob, t3
+        csel   \prob, t2, t0, lo
+            CMOV_code
+        mov     sym, 2
+        PSTORE_2  t3, probs, 1 * PMULT
+            adc     sym, sym, wzr
+        BIT_01
+.endm
+.macro BIT_1_R prob:req
+        NORM_LSR
+            p2_add  sym, sym
+            sub     t3, \prob, kBitModelOffset
+        RANGE_IMUL  \prob
+            PLOAD_LSL t2, probs, sym_R
+        COD_RANGE_SUB
+        CMOV_range
+            cmovae  t3, \prob
+        PLOAD_LSL t0, probs_PMULT, sym_R
+            PUP_BASE_2 \prob, t3
+        csel   \prob, t2, t0, lo
+            CMOV_code
+        PSTORE_LSL_M1  t3, probs, sym_R, t2_R
+            adc     sym, sym, wzr
+.endm
+.macro BIT_2_R prob:req
+        NORM_LSR
+            p2_add  sym, sym
+            sub     t3, \prob, kBitModelOffset
+        RANGE_IMUL  \prob
+        COD_RANGE_SUB
+        CMOV_range
+            cmovae  t3, \prob
+            CMOV_code
+            PUP_BASE_2 \prob, t3
+        PSTORE_LSL_M1  t3, probs, sym_R, t2_R
+            adc     sym, sym, wzr
+.endm
+# ---------- MATCHED LITERAL ----------
+.macro LITM_0 macro
+        shl     match, (PSHIFT + 1)
+        and     bit, match, 256 * PMULT
+        add     prm, probs, 256 * PMULT + 1 * PMULT
+        p2_add  match, match
+        p2_add  prm, bit_R
+        eor     offs, bit, 256 * PMULT
+        PLOAD   litm_prob, prm
+        
+        NORM_LSR
+            sub     t2, litm_prob, kBitModelOffset
+        RANGE_IMUL  litm_prob
+        COD_RANGE_SUB
+        cmovae  offs, bit
+            CMOV_range
+        and     bit, match, offs
+            cmovae  t2, litm_prob
+            CMOV_code
+            mov     sym, 2
+        PUP_BASE_2 litm_prob, t2
+        PSTORE  t2, prm
+        add     prm, probs, offs_R
+        adc     sym, sym, wzr
+.endm
+.macro LITM macro
+        p2_add  prm, bit_R
+            xor     offs, bit
+        PLOAD_LSL litm_prob, prm, sym_R
+        
+        NORM_LSR
+            p2_add  match, match
+            sub     t2, litm_prob, kBitModelOffset
+        RANGE_IMUL  litm_prob
+        COD_RANGE_SUB
+        cmovae  offs, bit
+            CMOV_range
+        and     bit, match, offs
+            cmovae  t2, litm_prob
+            CMOV_code
+        PUP_BASE_2 litm_prob, t2
+        PSTORE_LSL t2, prm, sym_R
+        add     prm, probs, offs_R
+        adc     sym, sym, sym
+.endm
+.macro LITM_2 macro
+        p2_add  prm, bit_R
+        PLOAD_LSL litm_prob, prm, sym_R
+        
+        NORM_LSR
+            sub     t2, litm_prob, kBitModelOffset
+        RANGE_IMUL  litm_prob
+        COD_RANGE_SUB
+            CMOV_range
+            cmovae  t2, litm_prob
+            CMOV_code
+        PUP_BASE_2 litm_prob, t2
+        PSTORE_LSL t2, prm, sym_R
+        adc     sym, sym, sym
+.endm
+# ---------- REVERSE BITS ----------
+.macro REV_0 prob:req
+        NORM_CALC \prob
+        CMOV_range
+        PLOAD   t2, sym2_R
+        PLOAD_2 t3, probs, 3 * PMULT
+        CMOV_code_Model_Pre \prob
+        add     t1_R, probs, 3 * PMULT
+        cmovae  sym2_R, t1_R
+        PUP     \prob, probs, 1 * PMULT
+        csel    \prob, t2, t3, lo
+.endm
+.macro REV_1 prob:req, step:req
+        NORM_LSR
+            PLOAD_PREINDEXED  t2, sym2_R, (\step * PMULT)
+        RANGE_IMUL  \prob
+        COD_RANGE_SUB
+        CMOV_range
+        PLOAD_2 t3, sym2_R, (\step * PMULT)
+        sub     t0, \prob, kBitModelOffset
+        CMOV_code
+        add     t1_R, sym2_R, \step * PMULT
+        cmovae  t0, \prob
+        cmovae  sym2_R, t1_R
+        PUP_BASE_2 \prob, t0
+        csel    \prob, t2, t3, lo
+        PSTORE_2   t0, t1_R, 0 - \step * PMULT_2
+.endm
+.macro REV_2 prob:req, step:req
+        sub     t1_R, sym2_R, probs
+        NORM_LSR
+            orr     sym, sym, t1, lsr #PSHIFT
+        RANGE_IMUL  \prob
+        COD_RANGE_SUB
+        sub     t2, sym, \step
+        CMOV_range
+        cmovb   sym, t2
+        CMOV_code_Model_Pre \prob
+        PUP     \prob, sym2_R, 0
+.endm
+.macro REV_1_VAR prob:req
+        PLOAD   \prob, sym_R
+        mov     probs, sym_R
+        p2_add  sym_R, sym2_R
+        NORM_LSR
+            add     t2_R, sym_R, sym2_R
+        RANGE_IMUL  \prob
+        COD_RANGE_SUB
+        cmovae  sym_R, t2_R
+        CMOV_range
+        CMOV_code_Model_Pre \prob
+        p2_add  sym2, sym2
+        PUP     \prob, probs, 0
+.endm
+.macro add_big dest:req, src:req, param:req
+    .if (\param) < (1 << 12)
+        add     \dest, \src, \param
+    .else
+        #ifndef _LZMA_PROB32    
+          .error "unexpcted add_big expansion"
+        #endif
+        add     \dest, \src, (\param) / 2
+        add     \dest, \dest, (\param) - (\param) / 2
+    .endif
+.endm
+.macro sub_big dest:req, src:req, param:req
+    .if (\param) < (1 << 12)
+        sub     \dest, \src, \param
+    .else
+        #ifndef _LZMA_PROB32    
+          .error "unexpcted sub_big expansion"
+        #endif
+        sub     \dest, \src, (\param) / 2
+        sub     \dest, \dest, (\param) - (\param) / 2
+    .endif
+.endm
+.macro SET_probs offset:req
+        // add_big probs, probs_Spec, (\offset) * PMULT
+        add     probs, probs_IsMatch, ((\offset) - IsMatch) * PMULT
+.endm        
+.macro LIT_PROBS
+        add     sym, sym, processedPos, lsl 8
+        inc     processedPos
+        UPDATE_0__0
+        shl     sym, lc2_lpMask
+        SET_probs Literal
+        p2_and  sym, lc2_lpMask
+        // p2_add  probs_state, pbPos_R
+        p2_add  probs, sym_R
+        UPDATE_0__1
+        add     probs, probs, sym_R, lsl 1
+        UPDATE_0__2 probs_state, pbPos_R, 0
+.endm
+.equ kNumPosBitsMax       , 4
+.equ kNumPosStatesMax     , (1 << kNumPosBitsMax)
+                         
+.equ kLenNumLowBits       , 3
+.equ kLenNumLowSymbols    , (1 << kLenNumLowBits)
+.equ kLenNumHighBits      , 8
+.equ kLenNumHighSymbols   , (1 << kLenNumHighBits)
+.equ kNumLenProbs         , (2 * kLenNumLowSymbols * kNumPosStatesMax + kLenNumHighSymbols)
+                         
+.equ LenLow               , 0
+.equ LenChoice            , LenLow
+.equ LenChoice2           , (LenLow + kLenNumLowSymbols)
+.equ LenHigh              , (LenLow + 2 * kLenNumLowSymbols * kNumPosStatesMax)
+                         
+.equ kNumStates           , 12
+.equ kNumStates2          , 16
+.equ kNumLitStates        , 7
+                         
+.equ kStartPosModelIndex  , 4
+.equ kEndPosModelIndex    , 14
+.equ kNumFullDistances    , (1 << (kEndPosModelIndex >> 1))
+                         
+.equ kNumPosSlotBits      , 6
+.equ kNumLenToPosStates   , 4
+                         
+.equ kNumAlignBits        , 4
+.equ kAlignTableSize      , (1 << kNumAlignBits)
+                         
+.equ kMatchMinLen         , 2
+.equ kMatchSpecLenStart   , (kMatchMinLen + kLenNumLowSymbols * 2 + kLenNumHighSymbols)
+// .equ kStartOffset    , 1408
+.equ kStartOffset    , 0
+.equ SpecPos         , (-kStartOffset)
+.equ IsRep0Long      , (SpecPos + kNumFullDistances)
+.equ RepLenCoder     , (IsRep0Long + (kNumStates2 << kNumPosBitsMax))
+.equ LenCoder        , (RepLenCoder + kNumLenProbs)
+.equ IsMatch         , (LenCoder + kNumLenProbs)
+.equ kAlign          , (IsMatch + (kNumStates2 << kNumPosBitsMax))
+.equ IsRep           , (kAlign + kAlignTableSize)
+.equ IsRepG0         , (IsRep + kNumStates)
+.equ IsRepG1         , (IsRepG0 + kNumStates)
+.equ IsRepG2         , (IsRepG1 + kNumStates)
+.equ PosSlot         , (IsRepG2 + kNumStates)
+.equ Literal         , (PosSlot + (kNumLenToPosStates << kNumPosSlotBits))
+.equ NUM_BASE_PROBS  , (Literal + kStartOffset)
+.if kStartOffset != 0   // && IsMatch != 0
+  .error "Stop_Compiling_Bad_StartOffset"
+.endif
+.if NUM_BASE_PROBS != 1984
+  .error "Stop_Compiling_Bad_LZMA_PROBS"
+.endif
+.equ offset_lc    , 0
+.equ offset_lp    , 1
+.equ offset_pb    , 2
+.equ offset_dicSize       , 4
+.equ offset_probs         , 4 + offset_dicSize
+.equ offset_probs_1664    , 8 + offset_probs
+.equ offset_dic           , 8 + offset_probs_1664
+.equ offset_dicBufSize    , 8 + offset_dic
+.equ offset_dicPos        , 8 + offset_dicBufSize
+.equ offset_buf           , 8 + offset_dicPos
+.equ offset_range         , 8 + offset_buf
+.equ offset_code          , 4 + offset_range
+.equ offset_processedPos  , 4 + offset_code
+.equ offset_checkDicSize  , 4 + offset_processedPos
+.equ offset_rep0          , 4 + offset_checkDicSize
+.equ offset_rep1          , 4 + offset_rep0
+.equ offset_rep2          , 4 + offset_rep1
+.equ offset_rep3          , 4 + offset_rep2
+.equ offset_state         , 4 + offset_rep3
+.equ offset_remainLen     , 4 + offset_state
+.equ offset_TOTAL_SIZE    , 4 + offset_remainLen
+.if offset_TOTAL_SIZE != 96
+  .error "Incorrect offset_TOTAL_SIZE"
+.endif
+.macro IsMatchBranch_Pre
+        # prob = probs + IsMatch + (state << kNumPosBitsMax) + posState;
+        and     pbPos, pbMask, processedPos, lsl #(kLenNumLowBits + 1 + PSHIFT)
+        add     probs_state, probs_IsMatch, state_R
+.endm
+/*
+.macro IsMatchBranch
+        IsMatchBranch_Pre
+        IF_BIT_1 probs_state, pbPos_R, (IsMatch - IsMatch), IsMatch_label
+.endm
+*/        
+.macro CheckLimits
+        cmp     buf, bufLimit
+        jae     fin_OK
+        cmp     dicPos, limit
+        jae     fin_OK
+.endm
+#define  CheckLimits_lit  CheckLimits
+/*
+.macro CheckLimits_lit
+        cmp     buf, bufLimit
+        jae     fin_OK_lit
+        cmp     dicPos, limit
+        jae     fin_OK_lit
+.endm
+*/
+#define PARAM_lzma      REG_ABI_PARAM_0
+#define PARAM_limit     REG_ABI_PARAM_1
+#define PARAM_bufLimit  REG_ABI_PARAM_2
+.macro LOAD_LZMA_VAR reg:req, struct_offs:req
+        ldr     \reg, [PARAM_lzma, \struct_offs]
+.endm
+.macro LOAD_LZMA_BYTE reg:req, struct_offs:req
+        ldrb    \reg, [PARAM_lzma, \struct_offs]
+.endm
+.macro LOAD_LZMA_PAIR reg0:req, reg1:req, struct_offs:req
+        ldp     \reg0, \reg1, [PARAM_lzma, \struct_offs]
+.endm
+LzmaDec_DecodeReal_3:
+_LzmaDec_DecodeReal_3:
+/*
+.LFB0:
+        .cfi_startproc  
+*/
+        stp     x19, x20, [sp, -128]!
+        stp     x21, x22, [sp, 16]
+        stp     x23, x24, [sp, 32]
+        stp     x25, x26, [sp, 48]
+        stp     x27, x28, [sp, 64]
+        stp     x29, x30, [sp, 80]
+        
+        str     PARAM_lzma, [sp, 120]
+        
+        mov     bufLimit, PARAM_bufLimit
+        mov     limit, PARAM_limit
+        
+        LOAD_LZMA_PAIR  dic, dicBufSize, offset_dic
+        LOAD_LZMA_PAIR  dicPos, buf, offset_dicPos
+        LOAD_LZMA_PAIR  rep0, rep1, offset_rep0
+        LOAD_LZMA_PAIR  rep2, rep3, offset_rep2
+        
+        mov     t0, 1 << (kLenNumLowBits + 1 + PSHIFT)
+        LOAD_LZMA_BYTE  pbMask, offset_pb
+        p2_add  limit, dic
+        mov     len, wzr    // we can set it in all requiread branches instead
+        lsl     pbMask, t0, pbMask
+        p2_add  dicPos, dic
+        p2_sub  pbMask, t0
+        LOAD_LZMA_BYTE  lc2_lpMask, offset_lc
+        mov     t0, 256 << PSHIFT
+        LOAD_LZMA_BYTE  t1, offset_lp
+        p2_add  t1, lc2_lpMask
+        p2_sub  lc2_lpMask, (256 << PSHIFT) - PSHIFT
+        shl     t0, t1
+        p2_add  lc2_lpMask, t0
+        
+        LOAD_LZMA_VAR   probs_Spec, offset_probs
+        LOAD_LZMA_VAR   checkDicSize, offset_checkDicSize
+        LOAD_LZMA_VAR   processedPos, offset_processedPos
+        LOAD_LZMA_VAR   state, offset_state
+        // range is r0 : this load must be last don't move        
+        LOAD_LZMA_PAIR  range, cod, offset_range    
+        mov     sym, wzr
+        shl     state, PSHIFT
+        add_big probs_IsMatch, probs_Spec, ((IsMatch - SpecPos) << PSHIFT)
+        // if (processedPos != 0 || checkDicSize != 0)
+        orr     t0, checkDicSize, processedPos
+        cbz     t0, 1f
+        add     t0_R, dicBufSize, dic
+        cmp     dicPos, dic
+        cmovne  t0_R, dicPos
+        ldrb    sym, [t0_R, -1]
+1:
+        IsMatchBranch_Pre
+        cmp     state, 4 * PMULT
+        jb      lit_end
+        cmp     state, kNumLitStates * PMULT
+        jb      lit_matched_end
+        jmp     lz_end
+        
+        
+#define BIT_0  BIT_0_R prob_reg
+#define BIT_1  BIT_1_R prob_reg
+#define BIT_2  BIT_2_R prob_reg
+# ---------- LITERAL ----------
+MY_ALIGN_64
+lit_start:
+        mov     state, wzr
+lit_start_2:
+        LIT_PROBS
+    #ifdef _LZMA_SIZE_OPT
+        PLOAD_2 prob_reg, probs, 1 * PMULT
+        mov     sym, 1
+        BIT_01        
+MY_ALIGN_FOR_LOOP
+lit_loop:
+        BIT_1
+        tbz     sym, 7, lit_loop
+        
+    #else
+        
+        BIT_0
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+        
+    #endif
+        BIT_2
+        IsMatchBranch_Pre
+        strb    sym, [dicPos], 1
+        p2_and  sym, 255
+                
+        CheckLimits_lit
+lit_end:
+        IF_BIT_0_NOUP probs_state, pbPos_R, (IsMatch - IsMatch), lit_start
+        # jmp     IsMatch_label
+        
+#define FLAG_STATE_BITS (4 + PSHIFT)          
+# ---------- MATCHES ----------
+# MY_ALIGN_FOR_ENTRY
+IsMatch_label:
+        UPDATE_1 probs_state, pbPos_R, (IsMatch - IsMatch)
+        IF_BIT_1 probs_state, 0, (IsRep - IsMatch), IsRep_label
+        SET_probs LenCoder
+        or      state, (1 << FLAG_STATE_BITS)
+# ---------- LEN DECODE ----------
+len_decode:
+        mov     len, 8 - kMatchMinLen
+        IF_BIT_0_NOUP_1 probs, len_mid_0
+        UPDATE_1 probs, 0, 0
+        p2_add  probs, (1 << (kLenNumLowBits + PSHIFT))
+        mov     len, 0 - kMatchMinLen
+        IF_BIT_0_NOUP_1 probs, len_mid_0
+        UPDATE_1 probs, 0, 0
+        p2_add  probs, LenHigh * PMULT - (1 << (kLenNumLowBits + PSHIFT))
+        
+    #if 0 == 1
+        BIT_0
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+   #else
+        PLOAD_2 prob_reg, probs, 1 * PMULT
+        mov     sym, 1
+        BIT_01
+MY_ALIGN_FOR_LOOP
+len8_loop:
+        BIT_1
+        tbz     sym, 6, len8_loop
+   #endif        
+        
+        mov     len, (kLenNumHighSymbols - kLenNumLowSymbols * 2) - kMatchMinLen
+        jmp     len_mid_2 
+        
+MY_ALIGN_FOR_ENTRY
+len_mid_0:
+        UPDATE_0 probs, 0, 0
+        p2_add  probs, pbPos_R
+        BIT_0
+len_mid_2:
+        BIT_1
+        BIT_2
+        sub     len, sym, len
+        tbz     state, FLAG_STATE_BITS, copy_match
+        
+# ---------- DECODE DISTANCE ----------
+        // probs + PosSlot + ((len < kNumLenToPosStates ? len : kNumLenToPosStates - 1) << kNumPosSlotBits);
+        mov     t0, 3 + kMatchMinLen
+        cmp     len, 3 + kMatchMinLen
+        cmovb   t0, len
+        SET_probs PosSlot - (kMatchMinLen << (kNumPosSlotBits))
+        add     probs, probs, t0_R, lsl #(kNumPosSlotBits + PSHIFT)
+        
+    #ifdef _LZMA_SIZE_OPT
+        PLOAD_2 prob_reg, probs, 1 * PMULT
+        mov     sym, 1
+        BIT_01
+MY_ALIGN_FOR_LOOP
+slot_loop:
+        BIT_1
+        tbz     sym, 5, slot_loop
+        
+    #else
+        
+        BIT_0
+        BIT_1
+        BIT_1
+        BIT_1
+        BIT_1
+        
+    #endif
+        
+    #define numBits t4
+        mov     numBits, sym
+        BIT_2
+        // we need only low bits
+        p2_and  sym, 3
+        cmp     numBits, 32 + kEndPosModelIndex / 2
+        jb      short_dist
+        SET_probs kAlign
+        #  unsigned numDirectBits = (unsigned)(((distance >> 1) - 1));
+        p2_sub  numBits, (32 + 1 + kNumAlignBits)
+        #  distance = (2 | (distance & 1));
+        or      sym, 2
+        PLOAD_2 prob_reg, probs, 1 * PMULT
+        add     sym2_R, probs, 2 * PMULT
+        
+# ---------- DIRECT DISTANCE ----------
+.macro DIRECT_1
+        shr     range, 1
+        subs    t0, cod, range
+        p2_add  sym, sym
+        // add     t1, sym, 1
+        csel    cod, cod, t0, mi
+        csinc   sym, sym, sym, mi
+        // csel    sym, t1, sym, pl
+        // adc     sym, sym, sym // not 100% compatible for "corruptued-allowed" LZMA streams
+        dec_s   numBits
+        je      direct_end
+.endm
+    #ifdef _LZMA_SIZE_OPT
+        jmp     direct_norm
+MY_ALIGN_FOR_ENTRY
+direct_loop:
+        DIRECT_1
+direct_norm:
+        TEST_HIGH_BYTE_range
+        jnz     direct_loop
+        NORM_2
+        jmp     direct_loop
+    #else        
+.macro DIRECT_2
+        TEST_HIGH_BYTE_range
+        jz      direct_unroll
+        DIRECT_1
+.endm
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        DIRECT_2
+        
+direct_unroll:
+        NORM_2
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        DIRECT_1
+        jmp     direct_unroll
+    
+    #endif
+MY_ALIGN_FOR_ENTRY
+direct_end:
+        shl     sym, kNumAlignBits
+        REV_0   prob_reg
+        REV_1   prob_reg, 2
+        REV_1   prob_reg, 4
+        REV_2   prob_reg, 8
+decode_dist_end:
+    // if (distance >= (checkDicSize == 0 ? processedPos: checkDicSize))
+        tst     checkDicSize, checkDicSize
+        csel    t0, processedPos, checkDicSize, eq
+        cmp     sym, t0
+        jae     end_of_payload
+        // jmp     end_of_payload # for debug
+        
+        mov     rep3, rep2
+        mov     rep2, rep1
+        mov     rep1, rep0
+        add     rep0, sym, 1
+.macro  STATE_UPDATE_FOR_MATCH
+        // state = (state < kNumStates + kNumLitStates) ? kNumLitStates : kNumLitStates + 3;
+        // cmp     state, (kNumStates + kNumLitStates) * PMULT
+        cmp     state, kNumLitStates * PMULT + (1 << FLAG_STATE_BITS)
+        mov     state, kNumLitStates * PMULT
+        mov     t0, (kNumLitStates + 3) * PMULT
+        cmovae  state, t0
+.endm
+        STATE_UPDATE_FOR_MATCH
+        
+# ---------- COPY MATCH ----------
+copy_match:
+    // if ((rem = limit - dicPos) == 0) break // return SZ_ERROR_DATA;
+        subs    cnt_R, limit, dicPos
+        // jz      fin_dicPos_LIMIT
+        jz      fin_OK
+    // curLen = ((rem < len) ? (unsigned)rem : len);
+        cmp     cnt_R, len_R
+        cmovae  cnt, len
+        sub     t0_R, dicPos, dic
+        p2_add  dicPos, cnt_R
+        p2_add  processedPos, cnt
+        p2_sub  len, cnt
+        
+    // pos = dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0);
+        p2_sub_s  t0_R, rep0_R
+        jae     1f
+        cmn     t0_R, cnt_R
+        p2_add  t0_R, dicBufSize
+        ja      copy_match_cross
+1:
+# ---------- COPY MATCH FAST ----------
+    # t0_R : src_pos
+        p2_add  t0_R, dic
+        ldrb    sym, [t0_R]
+        p2_add  t0_R, cnt_R
+        p1_neg  cnt_R
+copy_common:
+        dec     dicPos
+    # dicPos  : (ptr_to_last_dest_BYTE)    
+    # t0_R    : (src_lim)
+    # cnt_R   : (-curLen)
+        IsMatchBranch_Pre
+        
+        inc_s   cnt_R
+        jz      copy_end
+        
+        cmp     rep0, 1
+        je      copy_match_0
+   
+    #ifdef LZMA_USE_2BYTES_COPY
+        strb    sym, [dicPos, cnt_R]
+        dec     dicPos
+    # dicPos  : (ptr_to_last_dest_16bitWORD)    
+        p2_and  cnt_R, -2
+        ldrh    sym, [t0_R, cnt_R]
+        adds    cnt_R, cnt_R, 2
+        jz      2f
+MY_ALIGN_FOR_LOOP
+1:
+        /*
+        strh    sym, [dicPos, cnt_R]
+        ldrh    sym, [t0_R, cnt_R]
+        adds    cnt_R, cnt_R, 2
+        jz      2f
+        */
+        strh    sym, [dicPos, cnt_R]
+        ldrh    sym, [t0_R, cnt_R]
+        adds    cnt_R, cnt_R, 2
+        jnz     1b
+2:
+        
+        /*
+        // for universal little/big endian code, but slow
+        strh    sym, [dicPos]
+        inc     dicPos 
+        ldrb    sym, [t0_R, -1]
+        */
+        #if  __BYTE_ORDER__ == __ORDER_BIG_ENDIAN__
+        // we must improve big-endian detection for another compilers 
+        // for big-endian we need to revert bytes
+        rev16   sym, sym         
+        #endif
+        
+        // (sym) must represent as little-endian here:
+        strb    sym, [dicPos], 1
+        shr     sym, 8             
+    #else
+MY_ALIGN_FOR_LOOP
+1:
+        strb    sym, [dicPos, cnt_R]
+        ldrb    sym, [t0_R, cnt_R]
+        inc_s   cnt_R
+        jz      copy_end
+        strb    sym, [dicPos, cnt_R]
+        ldrb    sym, [t0_R, cnt_R]
+        inc_s   cnt_R
+        jnz     1b
+    #endif
+copy_end:
+lz_end_match:
+        strb    sym, [dicPos], 1
+  
+        # IsMatchBranch_Pre
+        CheckLimits
+lz_end:
+        IF_BIT_1_NOUP probs_state, pbPos_R, (IsMatch - IsMatch), IsMatch_label
+# ---------- LITERAL MATCHED ----------
+                
+        LIT_PROBS
+        
+    // matchByte = dic[dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0)];
+        sub     t0_R, dicPos, dic
+        p2_sub_s t0_R, rep0_R
+    
+    #ifdef LZMA_USE_CMOV_LZ_WRAP
+        add     t1_R, t0_R, dicBufSize
+        cmovb   t0_R, t1_R
+    #else                
+        jae     1f
+        p2_add  t0_R, dicBufSize
+1:
+    #endif                        
+        ldrb    match, [dic, t0_R]
+    // state -= (state < 10) ? 3 : 6;
+        sub     sym, state, 6 * PMULT
+        cmp     state, 10 * PMULT
+        p2_sub  state, 3 * PMULT
+        cmovae  state, sym
+    #ifdef _LZMA_SIZE_OPT
+        mov     offs, 256 * PMULT
+        shl     match, (PSHIFT + 1)
+        mov     sym, 1
+        and     bit, match, offs
+        add     prm, probs, offs_R
+MY_ALIGN_FOR_LOOP
+litm_loop:
+        LITM
+        tbz     sym, 8, litm_loop
+        
+    #else
+        
+        LITM_0
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM_2
+        
+    #endif
+    
+        IsMatchBranch_Pre
+        strb    sym, [dicPos], 1
+        p2_and  sym, 255
+        
+        // mov     len, wzr // LITM uses same regisetr (len / offs). So we clear it
+        CheckLimits_lit
+lit_matched_end:
+        IF_BIT_1_NOUP probs_state, pbPos_R, (IsMatch - IsMatch), IsMatch_label
+        # IsMatchBranch
+        p2_sub  state, 3 * PMULT
+        jmp     lit_start_2
+        
+# ---------- REP 0 LITERAL ----------
+MY_ALIGN_FOR_ENTRY
+IsRep0Short_label:
+        UPDATE_0 probs_state, pbPos_R, 0
+    // dic[dicPos] = dic[dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0)];
+        sub     t0_R, dicPos, dic
+        
+        // state = state < kNumLitStates ? 9 : 11;
+        or      state, 1 * PMULT
+        
+        # the caller doesn't allow (dicPos >= limit) case for REP_SHORT
+        # so we don't need the following (dicPos == limit) check here:
+        # cmp     dicPos, limit
+        # jae     fin_dicPos_LIMIT_REP_SHORT
+        # // jmp fin_dicPos_LIMIT_REP_SHORT // for testing/debug puposes
+        inc     processedPos
+        IsMatchBranch_Pre
+       
+        p2_sub_s t0_R, rep0_R
+    #ifdef LZMA_USE_CMOV_LZ_WRAP
+        add     sym_R, t0_R, dicBufSize
+        cmovb   t0_R, sym_R
+    #else       
+        jae     1f
+        p2_add  t0_R, dicBufSize
+1:
+    #endif
+        
+        ldrb    sym, [dic, t0_R]
+        // mov     len, wzr
+        jmp     lz_end_match
+        
+MY_ALIGN_FOR_ENTRY
+IsRep_label:
+        UPDATE_1 probs_state, 0, (IsRep - IsMatch)
+        # The (checkDicSize == 0 && processedPos == 0) case was checked before in LzmaDec.c with kBadRepCode.
+        # So we don't check it here.
+        
+        # mov     t0, processedPos
+        # or      t0, checkDicSize
+        # jz      fin_ERROR_2
+        // state = state < kNumLitStates ? 8 : 11;
+        cmp     state, kNumLitStates * PMULT
+        mov     state, 8 * PMULT
+        mov     probBranch, 11 * PMULT
+        cmovae  state, probBranch
+        SET_probs RepLenCoder
+        
+        IF_BIT_1 probs_state, 0, (IsRepG0 - IsMatch), IsRepG0_label
+        sub_big  probs_state, probs_state, (IsMatch - IsRep0Long) << PSHIFT
+        IF_BIT_0_NOUP probs_state, pbPos_R, 0, IsRep0Short_label
+        UPDATE_1 probs_state, pbPos_R, 0
+        jmp     len_decode
+MY_ALIGN_FOR_ENTRY
+IsRepG0_label:
+        UPDATE_1 probs_state, 0, (IsRepG0 - IsMatch)
+        IF_BIT_1 probs_state, 0, (IsRepG1 - IsMatch), IsRepG1_label
+        mov     dist, rep1
+        mov     rep1, rep0
+        mov     rep0, dist
+        jmp     len_decode
+        
+# MY_ALIGN_FOR_ENTRY
+IsRepG1_label:
+        UPDATE_1 probs_state, 0, (IsRepG1 - IsMatch)
+        IF_BIT_1 probs_state, 0, (IsRepG2 - IsMatch), IsRepG2_label
+        mov     dist, rep2
+        mov     rep2, rep1
+        mov     rep1, rep0
+        mov     rep0, dist
+        jmp     len_decode
+# MY_ALIGN_FOR_ENTRY
+IsRepG2_label:
+        UPDATE_1 probs_state, 0, (IsRepG2 - IsMatch)
+        mov     dist, rep3
+        mov     rep3, rep2
+        mov     rep2, rep1
+        mov     rep1, rep0
+        mov     rep0, dist
+        jmp     len_decode
+        
+# ---------- SPEC SHORT DISTANCE ----------
+MY_ALIGN_FOR_ENTRY
+short_dist:
+        p2_sub_s numBits, 32 + 1
+        jbe     decode_dist_end
+        or      sym, 2
+        shl     sym, numBits
+        add     sym_R, probs_Spec, sym_R, lsl #PSHIFT
+        p2_add  sym_R, SpecPos * PMULT + 1 * PMULT
+        mov     sym2, PMULT // # step
+MY_ALIGN_FOR_LOOP
+spec_loop:
+        REV_1_VAR prob_reg
+        dec_s   numBits
+        jnz     spec_loop
+        
+        p2_add  sym2_R, probs_Spec
+    .if SpecPos != 0
+        p2_add  sym2_R, SpecPos * PMULT
+    .endif
+        p2_sub  sym_R, sym2_R
+        shr     sym, PSHIFT
+        
+        jmp     decode_dist_end
+# ---------- COPY MATCH 0 ----------
+MY_ALIGN_FOR_ENTRY
+copy_match_0:
+    #ifdef LZMA_USE_4BYTES_FILL
+        strb    sym, [dicPos, cnt_R]
+        inc_s   cnt_R
+        jz      copy_end
+        
+        strb    sym, [dicPos, cnt_R]
+        inc_s   cnt_R
+        jz      copy_end
+        
+        strb    sym, [dicPos, cnt_R]
+        inc_s   cnt_R
+        jz      copy_end
+        
+        orr     t3, sym, sym, lsl 8
+        p2_and  cnt_R, -4
+        orr     t3, t3, t3, lsl 16
+MY_ALIGN_FOR_LOOP_16
+1:
+        /*
+        str     t3, [dicPos, cnt_R]
+        adds    cnt_R, cnt_R, 4
+        jz      2f
+        */
+        str     t3, [dicPos, cnt_R]
+        adds    cnt_R, cnt_R, 4
+        jnz     1b
+2:
+        // p2_and  sym, 255
+    #else
+MY_ALIGN_FOR_LOOP
+1:
+        strb    sym, [dicPos, cnt_R]
+        inc_s   cnt_R
+        jz      copy_end
+        strb    sym, [dicPos, cnt_R]
+        inc_s   cnt_R
+        jnz     1b
+    #endif        
+    jmp     copy_end
+# ---------- COPY MATCH CROSS ----------
+copy_match_cross:
+        # t0_R  - src pos
+        # cnt_R - total copy len
+        p1_neg  cnt_R
+1:
+        ldrb    sym, [dic, t0_R]
+        inc     t0_R
+        strb    sym, [dicPos, cnt_R]
+        inc     cnt_R
+        cmp     t0_R, dicBufSize
+        jne     1b
+        
+        ldrb    sym, [dic]
+        sub     t0_R, dic, cnt_R
+        jmp     copy_common
+/*
+fin_dicPos_LIMIT_REP_SHORT:
+        mov     len, 1
+        jmp     fin_OK
+*/
+/*
+fin_dicPos_LIMIT:
+        jmp     fin_OK
+        # For more strict mode we can stop decoding with error
+        # mov     sym, 1
+        # jmp     fin
+*/
+fin_ERROR_MATCH_DIST:
+        # rep0 = distance + 1;
+        p2_add  len, kMatchSpecLen_Error_Data
+        mov     rep3, rep2
+        mov     rep2, rep1
+        mov     rep1, rep0
+        mov     rep0, sym
+        STATE_UPDATE_FOR_MATCH
+        # jmp     fin_OK
+        mov     sym, 1
+        jmp     fin
+end_of_payload:
+        inc_s   sym
+        jnz     fin_ERROR_MATCH_DIST
+        mov     len, kMatchSpecLenStart
+        xor     state, (1 << FLAG_STATE_BITS)
+        jmp     fin_OK
+/*
+fin_OK_lit:
+        mov     len, wzr
+*/
+fin_OK:
+        mov     sym, wzr
+fin:
+        NORM
+    #define fin_lzma_reg  t0_R
+   .macro STORE_LZMA_VAR reg:req, struct_offs:req
+        str     \reg, [fin_lzma_reg, \struct_offs]
+   .endm
+   .macro STORE_LZMA_PAIR reg0:req, reg1:req, struct_offs:req
+        stp     \reg0, \reg1, [fin_lzma_reg, \struct_offs]
+   .endm
+        ldr     fin_lzma_reg, [sp, 120]
+        p2_sub  dicPos, dic
+        shr     state, PSHIFT
+        STORE_LZMA_PAIR   dicPos, buf,  offset_dicPos
+        STORE_LZMA_PAIR   range, cod,   offset_range
+        STORE_LZMA_VAR    processedPos, offset_processedPos
+        STORE_LZMA_PAIR   rep0, rep1,   offset_rep0
+        STORE_LZMA_PAIR   rep2, rep3,   offset_rep2
+        STORE_LZMA_PAIR   state, len,   offset_state
+        mov     w0, sym
+        
+        ldp     x29, x30, [sp, 80]
+        ldp     x27, x28, [sp, 64]
+        ldp     x25, x26, [sp, 48]
+        ldp     x23, x24, [sp, 32]
+        ldp     x21, x22, [sp, 16]
+        ldp     x19, x20, [sp], 128
+        ret
+/*
+        .cfi_endproc
+.LFE0:
+        .size   LzmaDec_DecodeReal_3, .-LzmaDec_DecodeReal_3
+        .ident  "TAG_LZMA"
+        .section        .note.GNU-stack,"",@progbits
+*/        
diff --git a/Asm/x86/7zAsm.asm b/Asm/x86/7zAsm.asm
new file mode 100644
index 0000000..6275bb7
--- /dev/null
+++ b/Asm/x86/7zAsm.asm
@@ -0,0 +1,284 @@
+; 7zAsm.asm -- ASM macros
+; 2021-12-25 : Igor Pavlov : Public domain
+ifdef @wordsize
+; @wordsize is defined only in JWASM and ASMC and is not defined in MASM
+; @wordsize eq 8 for 64-bit x64
+; @wordsize eq 2 for 32-bit x86
+if @wordsize eq 8
+  x64 equ 1
+endif
+else
+ifdef RAX
+  x64 equ 1
+endif
+endif
+ifdef x64
+  IS_X64 equ 1
+else
+  IS_X64 equ 0
+endif
+ifdef ABI_LINUX
+  IS_LINUX equ 1
+else
+  IS_LINUX equ 0
+endif
+ifndef x64
+; Use ABI_CDECL for x86 (32-bit) only
+; if ABI_CDECL is not defined, we use fastcall abi
+ifdef ABI_CDECL
+  IS_CDECL equ 1
+else
+  IS_CDECL equ 0
+endif
+endif
+OPTION PROLOGUE:NONE 
+OPTION EPILOGUE:NONE
+MY_ASM_START macro
+  ifdef x64
+    .code
+  else
+    .386
+    .model flat
+    _TEXT$00 SEGMENT PARA PUBLIC 'CODE'
+  endif
+endm
+MY_PROC macro name:req, numParams:req
+  align 16
+  proc_numParams = numParams
+  if (IS_X64 gt 0)
+    proc_name equ name
+  elseif (IS_LINUX gt 0)
+    proc_name equ name
+  elseif (IS_CDECL gt 0)
+    proc_name equ @CatStr(_,name)
+  else
+    proc_name equ @CatStr(@,name,@, %numParams * 4)
+  endif
+  proc_name PROC
+endm
+MY_ENDP macro
+    if (IS_X64 gt 0)
+        ret
+    elseif (IS_CDECL gt 0)
+        ret
+    elseif (proc_numParams LT 3)
+        ret
+    else
+        ret (proc_numParams - 2) * 4
+    endif
+  proc_name ENDP
+endm
+ifdef x64
+  REG_SIZE equ 8
+  REG_LOGAR_SIZE equ 3
+else
+  REG_SIZE equ 4
+  REG_LOGAR_SIZE equ 2
+endif
+  x0 equ EAX
+  x1 equ ECX
+  x2 equ EDX
+  x3 equ EBX
+  x4 equ ESP
+  x5 equ EBP
+  x6 equ ESI
+  x7 equ EDI
+  x0_W equ AX
+  x1_W equ CX
+  x2_W equ DX
+  x3_W equ BX
+  x5_W equ BP
+  x6_W equ SI
+  x7_W equ DI
+  x0_L equ AL
+  x1_L equ CL
+  x2_L equ DL
+  x3_L equ BL
+  x0_H equ AH
+  x1_H equ CH
+  x2_H equ DH
+  x3_H equ BH
+ifdef x64
+  x5_L equ BPL
+  x6_L equ SIL
+  x7_L equ DIL
+  r0 equ RAX
+  r1 equ RCX
+  r2 equ RDX
+  r3 equ RBX
+  r4 equ RSP
+  r5 equ RBP
+  r6 equ RSI
+  r7 equ RDI
+  x8 equ r8d
+  x9 equ r9d
+  x10 equ r10d
+  x11 equ r11d
+  x12 equ r12d
+  x13 equ r13d
+  x14 equ r14d
+  x15 equ r15d
+else
+  r0 equ x0
+  r1 equ x1
+  r2 equ x2
+  r3 equ x3
+  r4 equ x4
+  r5 equ x5
+  r6 equ x6
+  r7 equ x7
+endif
+ifdef x64
+ifdef ABI_LINUX
+MY_PUSH_2_REGS macro
+    push    r3
+    push    r5
+endm
+MY_POP_2_REGS macro
+    pop     r5
+    pop     r3
+endm
+endif
+endif
+MY_PUSH_4_REGS macro
+    push    r3
+    push    r5
+    push    r6
+    push    r7
+endm
+MY_POP_4_REGS macro
+    pop     r7
+    pop     r6
+    pop     r5
+    pop     r3
+endm
+; for fastcall and for WIN-x64
+REG_PARAM_0_x   equ x1
+REG_PARAM_0     equ r1
+REG_PARAM_1_x   equ x2
+REG_PARAM_1     equ r2
+ifndef x64
+; for x86-fastcall
+REG_ABI_PARAM_0_x equ REG_PARAM_0_x
+REG_ABI_PARAM_0   equ REG_PARAM_0
+REG_ABI_PARAM_1_x equ REG_PARAM_1_x
+REG_ABI_PARAM_1   equ REG_PARAM_1
+else
+; x64
+if  (IS_LINUX eq 0)
+; for WIN-x64:
+REG_PARAM_2_x   equ x8
+REG_PARAM_2     equ r8
+REG_PARAM_3     equ r9
+REG_ABI_PARAM_0_x equ REG_PARAM_0_x
+REG_ABI_PARAM_0   equ REG_PARAM_0
+REG_ABI_PARAM_1_x equ REG_PARAM_1_x
+REG_ABI_PARAM_1   equ REG_PARAM_1
+REG_ABI_PARAM_2_x equ REG_PARAM_2_x
+REG_ABI_PARAM_2   equ REG_PARAM_2
+REG_ABI_PARAM_3   equ REG_PARAM_3
+else
+; for LINUX-x64:
+REG_LINUX_PARAM_0_x equ x7
+REG_LINUX_PARAM_0   equ r7
+REG_LINUX_PARAM_1_x equ x6
+REG_LINUX_PARAM_1   equ r6
+REG_LINUX_PARAM_2   equ r2
+REG_LINUX_PARAM_3   equ r1
+REG_LINUX_PARAM_4_x equ x8
+REG_LINUX_PARAM_4   equ r8
+REG_LINUX_PARAM_5   equ r9
+REG_ABI_PARAM_0_x equ REG_LINUX_PARAM_0_x
+REG_ABI_PARAM_0   equ REG_LINUX_PARAM_0
+REG_ABI_PARAM_1_x equ REG_LINUX_PARAM_1_x
+REG_ABI_PARAM_1   equ REG_LINUX_PARAM_1
+REG_ABI_PARAM_2   equ REG_LINUX_PARAM_2
+REG_ABI_PARAM_3   equ REG_LINUX_PARAM_3
+REG_ABI_PARAM_4_x equ REG_LINUX_PARAM_4_x
+REG_ABI_PARAM_4   equ REG_LINUX_PARAM_4
+REG_ABI_PARAM_5   equ REG_LINUX_PARAM_5
+MY_ABI_LINUX_TO_WIN_2 macro
+        mov     r2, r6
+        mov     r1, r7
+endm
+MY_ABI_LINUX_TO_WIN_3 macro
+        mov     r8, r2
+        mov     r2, r6
+        mov     r1, r7
+endm
+MY_ABI_LINUX_TO_WIN_4 macro
+        mov     r9, r1
+        mov     r8, r2
+        mov     r2, r6
+        mov     r1, r7
+endm
+endif ; IS_LINUX
+MY_PUSH_PRESERVED_ABI_REGS macro
+    if  (IS_LINUX gt 0)
+        MY_PUSH_2_REGS
+    else
+        MY_PUSH_4_REGS
+    endif
+        push    r12
+        push    r13
+        push    r14
+        push    r15
+endm
+MY_POP_PRESERVED_ABI_REGS macro
+        pop     r15
+        pop     r14
+        pop     r13
+        pop     r12
+    if  (IS_LINUX gt 0)
+        MY_POP_2_REGS
+    else
+        MY_POP_4_REGS
+    endif
+endm
+endif ; x64
diff --git a/Asm/x86/7zCrcOpt.asm b/Asm/x86/7zCrcOpt.asm
new file mode 100644
index 0000000..0fee206
--- /dev/null
+++ b/Asm/x86/7zCrcOpt.asm
@@ -0,0 +1,180 @@
+; 7zCrcOpt.asm -- CRC32 calculation : optimized version
+; 2021-02-07 : Igor Pavlov : Public domain
+include 7zAsm.asm
+MY_ASM_START
+rD   equ  r2
+rN   equ  r7
+rT   equ  r5
+ifdef x64
+    num_VAR     equ r8
+    table_VAR   equ r9
+else
+  if (IS_CDECL gt 0)
+    crc_OFFS    equ (REG_SIZE * 5)
+    data_OFFS   equ (REG_SIZE + crc_OFFS)
+    size_OFFS   equ (REG_SIZE + data_OFFS)
+  else
+    size_OFFS   equ (REG_SIZE * 5)
+  endif
+    table_OFFS  equ (REG_SIZE + size_OFFS)
+    num_VAR     equ [r4 + size_OFFS]
+    table_VAR   equ [r4 + table_OFFS]
+endif
+SRCDAT  equ  rD + rN * 1 + 4 *
+CRC macro op:req, dest:req, src:req, t:req
+    op      dest, DWORD PTR [rT + src * 4 + 0400h * t]
+endm
+CRC_XOR macro dest:req, src:req, t:req
+    CRC xor, dest, src, t
+endm
+CRC_MOV macro dest:req, src:req, t:req
+    CRC mov, dest, src, t
+endm
+CRC1b macro
+    movzx   x6, BYTE PTR [rD]
+    inc     rD
+    movzx   x3, x0_L
+    xor     x6, x3
+    shr     x0, 8
+    CRC     xor, x0, r6, 0
+    dec     rN
+endm
+MY_PROLOG macro crc_end:req
+    ifdef x64
+      if  (IS_LINUX gt 0)
+        MY_PUSH_2_REGS
+        mov     x0, REG_ABI_PARAM_0_x   ; x0 = x7
+        mov     rT, REG_ABI_PARAM_3     ; r5 = r1
+        mov     rN, REG_ABI_PARAM_2     ; r7 = r2
+        mov     rD, REG_ABI_PARAM_1     ; r2 = r6
+      else
+        MY_PUSH_4_REGS
+        mov     x0, REG_ABI_PARAM_0_x   ; x0 = x1
+        mov     rT, REG_ABI_PARAM_3     ; r5 = r9
+        mov     rN, REG_ABI_PARAM_2     ; r7 = r8
+        ; mov     rD, REG_ABI_PARAM_1     ; r2 = r2
+      endif
+    else
+        MY_PUSH_4_REGS
+      if  (IS_CDECL gt 0)
+        mov     x0, [r4 + crc_OFFS]
+        mov     rD, [r4 + data_OFFS]
+      else
+        mov     x0, REG_ABI_PARAM_0_x
+      endif
+        mov     rN, num_VAR
+        mov     rT, table_VAR
+    endif
+    
+    test    rN, rN
+    jz      crc_end
+  @@:
+    test    rD, 7
+    jz      @F
+    CRC1b
+    jnz     @B
+  @@:
+    cmp     rN, 16
+    jb      crc_end
+    add     rN, rD
+    mov     num_VAR, rN
+    sub     rN, 8
+    and     rN, NOT 7
+    sub     rD, rN
+    xor     x0, [SRCDAT 0]
+endm
+MY_EPILOG macro crc_end:req
+    xor     x0, [SRCDAT 0]
+    mov     rD, rN
+    mov     rN, num_VAR
+    sub     rN, rD
+  crc_end:
+    test    rN, rN
+    jz      @F
+    CRC1b
+    jmp     crc_end
+  @@:
+      if (IS_X64 gt 0) and (IS_LINUX gt 0)
+        MY_POP_2_REGS
+      else
+        MY_POP_4_REGS
+      endif
+endm
+MY_PROC CrcUpdateT8, 4
+    MY_PROLOG crc_end_8
+    mov     x1, [SRCDAT 1]
+    align 16
+  main_loop_8:
+    mov     x6, [SRCDAT 2]
+    movzx   x3, x1_L
+    CRC_XOR x6, r3, 3
+    movzx   x3, x1_H
+    CRC_XOR x6, r3, 2
+    shr     x1, 16
+    movzx   x3, x1_L
+    movzx   x1, x1_H
+    CRC_XOR x6, r3, 1
+    movzx   x3, x0_L
+    CRC_XOR x6, r1, 0
+    mov     x1, [SRCDAT 3]
+    CRC_XOR x6, r3, 7
+    movzx   x3, x0_H
+    shr     x0, 16
+    CRC_XOR x6, r3, 6
+    movzx   x3, x0_L
+    CRC_XOR x6, r3, 5
+    movzx   x3, x0_H
+    CRC_MOV x0, r3, 4
+    xor     x0, x6
+    add     rD, 8
+    jnz     main_loop_8
+    MY_EPILOG crc_end_8
+MY_ENDP
+MY_PROC CrcUpdateT4, 4
+    MY_PROLOG crc_end_4
+    align 16
+  main_loop_4:
+    movzx   x1, x0_L
+    movzx   x3, x0_H
+    shr     x0, 16
+    movzx   x6, x0_H
+    and     x0, 0FFh
+    CRC_MOV x1, r1, 3
+    xor     x1, [SRCDAT 1]
+    CRC_XOR x1, r3, 2
+    CRC_XOR x1, r6, 0
+    CRC_XOR x1, r0, 1
+ 
+    movzx   x0, x1_L
+    movzx   x3, x1_H
+    shr     x1, 16
+    movzx   x6, x1_H
+    and     x1, 0FFh
+    CRC_MOV x0, r0, 3
+    xor     x0, [SRCDAT 2]
+    CRC_XOR x0, r3, 2
+    CRC_XOR x0, r6, 0
+    CRC_XOR x0, r1, 1
+    add     rD, 8
+    jnz     main_loop_4
+    MY_EPILOG crc_end_4
+MY_ENDP
+end
diff --git a/Asm/x86/AesOpt.asm b/Asm/x86/AesOpt.asm
new file mode 100644
index 0000000..84bf897
--- /dev/null
+++ b/Asm/x86/AesOpt.asm
@@ -0,0 +1,742 @@
+; AesOpt.asm -- AES optimized code for x86 AES hardware instructions
+; 2021-12-25 : Igor Pavlov : Public domain
+include 7zAsm.asm
+ifdef __ASMC__
+  use_vaes_256 equ 1
+else
+ifdef ymm0
+  use_vaes_256 equ 1
+endif
+endif
+ifdef use_vaes_256
+  ECHO "++ VAES 256"
+else
+  ECHO "-- NO VAES 256"
+endif
+ifdef x64
+  ECHO "x86-64"
+else
+  ECHO "x86"
+if (IS_CDECL gt 0)
+  ECHO "ABI : CDECL"
+else
+  ECHO "ABI : no CDECL : FASTCALL"
+endif
+endif
+if (IS_LINUX gt 0)
+  ECHO "ABI : LINUX"
+else
+  ECHO "ABI : WINDOWS"
+endif
+MY_ASM_START
+ifndef x64
+    .686
+    .xmm
+endif
+; MY_ALIGN EQU ALIGN(64)
+MY_ALIGN EQU
+SEG_ALIGN EQU MY_ALIGN
+MY_SEG_PROC macro name:req, numParams:req
+    ; seg_name equ @CatStr(_TEXT$, name)
+    ; seg_name SEGMENT SEG_ALIGN 'CODE'
+    MY_PROC name, numParams
+endm
+MY_SEG_ENDP macro
+    ; seg_name ENDS
+endm
+NUM_AES_KEYS_MAX equ 15
+; the number of push operators in function PROLOG
+if (IS_LINUX eq 0) or (IS_X64 eq 0)
+num_regs_push   equ 2
+stack_param_offset equ (REG_SIZE * (1 + num_regs_push))
+endif
+ifdef x64
+    num_param   equ REG_ABI_PARAM_2
+else
+  if (IS_CDECL gt 0)
+    ;   size_t     size
+    ;   void *     data
+    ;   UInt32 *   aes
+    ;   ret-ip <- (r4)
+    aes_OFFS    equ (stack_param_offset)
+    data_OFFS   equ (REG_SIZE + aes_OFFS)
+    size_OFFS   equ (REG_SIZE + data_OFFS)
+    num_param   equ [r4 + size_OFFS]
+  else
+    num_param   equ [r4 + stack_param_offset]
+  endif
+endif
+keys    equ  REG_PARAM_0  ; r1
+rD      equ  REG_PARAM_1  ; r2
+rN      equ  r0
+koffs_x equ  x7
+koffs_r equ  r7
+ksize_x equ  x6
+ksize_r equ  r6
+keys2   equ  r3
+state   equ  xmm0
+key     equ  xmm0
+key_ymm equ  ymm0
+key_ymm_n equ   0
+ifdef x64
+        ways = 11
+else
+        ways = 4
+endif
+ways_start_reg equ 1
+iv      equ     @CatStr(xmm, %(ways_start_reg + ways))
+iv_ymm  equ     @CatStr(ymm, %(ways_start_reg + ways))
+WOP macro op, op2
+    i = 0
+    rept ways
+        op      @CatStr(xmm, %(ways_start_reg + i)), op2
+        i = i + 1
+    endm
+endm
+ifndef ABI_LINUX
+ifdef x64
+; we use 32 bytes of home space in stack in WIN64-x64
+NUM_HOME_MM_REGS   equ (32 / 16)
+; we preserve xmm registers starting from xmm6 in WIN64-x64
+MM_START_SAVE_REG  equ 6
+SAVE_XMM macro num_used_mm_regs:req
+  num_save_mm_regs = num_used_mm_regs - MM_START_SAVE_REG
+  if num_save_mm_regs GT 0
+    num_save_mm_regs2 = num_save_mm_regs - NUM_HOME_MM_REGS
+    ; RSP is (16*x + 8) after entering the function in WIN64-x64
+    stack_offset = 16 * num_save_mm_regs2 + (stack_param_offset mod 16)
+  
+    i = 0
+    rept num_save_mm_regs
+      
+      if i eq NUM_HOME_MM_REGS
+        sub  r4, stack_offset
+      endif
+      
+      if i lt NUM_HOME_MM_REGS
+        movdqa  [r4 + stack_param_offset + i * 16], @CatStr(xmm, %(MM_START_SAVE_REG + i))
+      else
+        movdqa  [r4 + (i - NUM_HOME_MM_REGS) * 16], @CatStr(xmm, %(MM_START_SAVE_REG + i))
+      endif
+      
+      i = i + 1
+    endm
+  endif
+endm
+RESTORE_XMM macro num_used_mm_regs:req
+  if num_save_mm_regs GT 0
+    i = 0
+    if num_save_mm_regs2 GT 0
+      rept num_save_mm_regs2
+        movdqa  @CatStr(xmm, %(MM_START_SAVE_REG + NUM_HOME_MM_REGS + i)), [r4 + i * 16]
+        i = i + 1
+      endm
+        add     r4, stack_offset
+    endif
+    num_low_regs = num_save_mm_regs - i
+    i = 0
+      rept num_low_regs
+        movdqa  @CatStr(xmm, %(MM_START_SAVE_REG + i)), [r4 + stack_param_offset + i * 16]
+        i = i + 1
+      endm
+  endif
+endm
+endif ; x64
+endif ; ABI_LINUX
+MY_PROLOG macro num_used_mm_regs:req
+        ; num_regs_push: must be equal to the number of push operators
+        ; push    r3
+        ; push    r5
+    if (IS_LINUX eq 0) or (IS_X64 eq 0)
+        push    r6
+        push    r7
+    endif
+        mov     rN, num_param  ; don't move it; num_param can use stack pointer (r4)
+    if (IS_X64 eq 0)
+      if (IS_CDECL gt 0)
+        mov     rD,   [r4 + data_OFFS]
+        mov     keys, [r4 + aes_OFFS]
+      endif
+    elseif (IS_LINUX gt 0)
+        MY_ABI_LINUX_TO_WIN_2
+    endif
+    ifndef ABI_LINUX
+    ifdef x64
+        SAVE_XMM num_used_mm_regs
+    endif
+    endif
+   
+        mov     ksize_x, [keys + 16]
+        shl     ksize_x, 5
+endm
+MY_EPILOG macro
+    ifndef ABI_LINUX
+    ifdef x64
+        RESTORE_XMM num_save_mm_regs
+    endif
+    endif
+    
+    if (IS_LINUX eq 0) or (IS_X64 eq 0)
+        pop     r7
+        pop     r6
+    endif
+        ; pop     r5
+        ; pop     r3
+    MY_ENDP
+endm
+OP_KEY macro op:req, offs:req
+        op      state, [keys + offs]
+endm
+ 
+WOP_KEY macro op:req, offs:req
+        movdqa  key, [keys + offs]
+        WOP     op, key
+endm
+; ---------- AES-CBC Decode ----------
+XOR_WITH_DATA macro reg, _ppp_
+        pxor    reg, [rD + i * 16]
+endm
+WRITE_TO_DATA macro reg, _ppp_
+        movdqa  [rD + i * 16], reg
+endm
+; state0    equ  @CatStr(xmm, %(ways_start_reg))
+key0            equ  @CatStr(xmm, %(ways_start_reg + ways + 1))
+key0_ymm        equ  @CatStr(ymm, %(ways_start_reg + ways + 1))
+key_last        equ  @CatStr(xmm, %(ways_start_reg + ways + 2))
+key_last_ymm    equ  @CatStr(ymm, %(ways_start_reg + ways + 2))
+key_last_ymm_n  equ                (ways_start_reg + ways + 2)
+NUM_CBC_REGS    equ  (ways_start_reg + ways + 3)
+MY_SEG_PROC AesCbc_Decode_HW, 3
+    AesCbc_Decode_HW_start::
+        MY_PROLOG NUM_CBC_REGS
+   
+    AesCbc_Decode_HW_start_2::
+        movdqa  iv, [keys]
+        add     keys, 32
+        movdqa  key0, [keys + 1 * ksize_r]
+        movdqa  key_last, [keys]
+        sub     ksize_x, 16
+        jmp     check2
+    align 16
+    nextBlocks2:
+        WOP     movdqa, [rD + i * 16]
+        mov     koffs_x, ksize_x
+        ; WOP_KEY pxor, ksize_r + 16
+        WOP     pxor, key0
+    ; align 16
+    @@:
+        WOP_KEY aesdec, 1 * koffs_r
+        sub     koffs_r, 16
+        jnz     @B
+        ; WOP_KEY aesdeclast, 0
+        WOP     aesdeclast, key_last
+        
+        pxor    @CatStr(xmm, %(ways_start_reg)), iv
+    i = 1
+    rept ways - 1
+        pxor    @CatStr(xmm, %(ways_start_reg + i)), [rD + i * 16 - 16]
+        i = i + 1
+    endm
+        movdqa  iv, [rD + ways * 16 - 16]
+        WOP     WRITE_TO_DATA
+        add     rD, ways * 16
+    AesCbc_Decode_HW_start_3::
+    check2:
+        sub     rN, ways
+        jnc     nextBlocks2
+        add     rN, ways
+        sub     ksize_x, 16
+        jmp     check
+    nextBlock:
+        movdqa  state, [rD]
+        mov     koffs_x, ksize_x
+        ; OP_KEY  pxor, 1 * ksize_r + 32
+        pxor    state, key0
+        ; movdqa  state0, [rD]
+        ; movdqa  state, key0
+        ; pxor    state, state0
+    @@:
+        OP_KEY  aesdec, 1 * koffs_r + 16
+        OP_KEY  aesdec, 1 * koffs_r
+        sub     koffs_r, 32
+        jnz     @B
+        OP_KEY  aesdec, 16
+        ; OP_KEY  aesdeclast, 0
+        aesdeclast state, key_last
+        
+        pxor    state, iv
+        movdqa  iv, [rD]
+        ; movdqa  iv, state0
+        movdqa  [rD], state
+        
+        add     rD, 16
+    check:
+        sub     rN, 1
+        jnc     nextBlock
+        movdqa  [keys - 32], iv
+MY_EPILOG
+; ---------- AVX ----------
+AVX__WOP_n macro op
+    i = 0
+    rept ways
+        op      (ways_start_reg + i)
+        i = i + 1
+    endm
+endm
+AVX__WOP macro op
+    i = 0
+    rept ways
+        op      @CatStr(ymm, %(ways_start_reg + i))
+        i = i + 1
+    endm
+endm
+AVX__WOP_KEY macro op:req, offs:req
+        vmovdqa  key_ymm, ymmword ptr [keys2 + offs]
+        AVX__WOP_n op
+endm
+AVX__CBC_START macro reg
+        ; vpxor   reg, key_ymm, ymmword ptr [rD + 32 * i]
+        vpxor   reg, key0_ymm, ymmword ptr [rD + 32 * i]
+endm
+AVX__CBC_END macro reg
+    if i eq 0
+        vpxor   reg, reg, iv_ymm
+    else
+        vpxor   reg, reg, ymmword ptr [rD + i * 32 - 16]
+    endif
+endm
+AVX__WRITE_TO_DATA macro reg
+        vmovdqu ymmword ptr [rD + 32 * i], reg
+endm
+AVX__XOR_WITH_DATA macro reg
+        vpxor   reg, reg, ymmword ptr [rD + 32 * i]
+endm
+AVX__CTR_START macro reg
+        vpaddq  iv_ymm, iv_ymm, one_ymm
+        ; vpxor   reg, iv_ymm, key_ymm
+        vpxor   reg, iv_ymm, key0_ymm
+endm
+MY_VAES_INSTR_2 macro cmd, dest, a1, a2
+  db 0c4H
+  db 2 + 040H + 020h * (1 - (a2) / 8) + 080h * (1 - (dest) / 8)
+  db 5 + 8 * ((not (a1)) and 15)
+  db cmd
+  db 0c0H + 8 * ((dest) and 7) + ((a2) and 7)
+endm
+MY_VAES_INSTR macro cmd, dest, a
+        MY_VAES_INSTR_2  cmd, dest, dest, a
+endm
+MY_vaesenc macro dest, a
+        MY_VAES_INSTR  0dcH, dest, a
+endm
+MY_vaesenclast macro dest, a
+        MY_VAES_INSTR  0ddH, dest, a
+endm
+MY_vaesdec macro dest, a
+        MY_VAES_INSTR  0deH, dest, a
+endm
+MY_vaesdeclast macro dest, a
+        MY_VAES_INSTR  0dfH, dest, a
+endm
+AVX__VAES_DEC macro reg
+        MY_vaesdec reg, key_ymm_n
+endm
+AVX__VAES_DEC_LAST_key_last macro reg
+        ; MY_vaesdeclast reg, key_ymm_n
+        MY_vaesdeclast reg, key_last_ymm_n
+endm
+AVX__VAES_ENC macro reg
+        MY_vaesenc reg, key_ymm_n
+endm
+AVX__VAES_ENC_LAST macro reg
+        MY_vaesenclast reg, key_ymm_n
+endm
+AVX__vinserti128_TO_HIGH macro dest, src
+        vinserti128  dest, dest, src, 1
+endm
+MY_PROC AesCbc_Decode_HW_256, 3
+  ifdef use_vaes_256
+        MY_PROLOG NUM_CBC_REGS
+        
+        cmp    rN, ways * 2
+        jb     AesCbc_Decode_HW_start_2
+        vmovdqa iv, xmmword ptr [keys]
+        add     keys, 32
+        vbroadcasti128  key0_ymm, xmmword ptr [keys + 1 * ksize_r]
+        vbroadcasti128  key_last_ymm, xmmword ptr [keys]
+        sub     ksize_x, 16
+        mov     koffs_x, ksize_x
+        add     ksize_x, ksize_x
+        
+        AVX_STACK_SUB = ((NUM_AES_KEYS_MAX + 1 - 2) * 32)
+        push    keys2
+        sub     r4, AVX_STACK_SUB
+        ; sub     r4, 32
+        ; sub     r4, ksize_r
+        ; lea     keys2, [r4 + 32]
+        mov     keys2, r4
+        and     keys2, -32
+    broad:
+        vbroadcasti128  key_ymm, xmmword ptr [keys + 1 * koffs_r]
+        vmovdqa         ymmword ptr [keys2 + koffs_r * 2], key_ymm
+        sub     koffs_r, 16
+        ; jnc     broad
+        jnz     broad
+        sub     rN, ways * 2
+    align 16
+    avx_cbcdec_nextBlock2:
+        mov     koffs_x, ksize_x
+        ; AVX__WOP_KEY    AVX__CBC_START, 1 * koffs_r + 32
+        AVX__WOP    AVX__CBC_START
+    @@:
+        AVX__WOP_KEY    AVX__VAES_DEC, 1 * koffs_r
+        sub     koffs_r, 32
+        jnz     @B
+        ; AVX__WOP_KEY    AVX__VAES_DEC_LAST, 0
+        AVX__WOP_n   AVX__VAES_DEC_LAST_key_last
+        AVX__vinserti128_TO_HIGH  iv_ymm, xmmword ptr [rD]
+        AVX__WOP        AVX__CBC_END
+        vmovdqa         iv, xmmword ptr [rD + ways * 32 - 16]
+        AVX__WOP        AVX__WRITE_TO_DATA
+        
+        add     rD, ways * 32
+        sub     rN, ways * 2
+        jnc     avx_cbcdec_nextBlock2
+        add     rN, ways * 2
+        shr     ksize_x, 1
+        
+        ; lea     r4, [r4 + 1 * ksize_r + 32]
+        add     r4, AVX_STACK_SUB
+        pop     keys2
+        vzeroupper
+        jmp     AesCbc_Decode_HW_start_3
+  else
+        jmp     AesCbc_Decode_HW_start
+  endif
+MY_ENDP
+MY_SEG_ENDP
+    
+; ---------- AES-CBC Encode ----------
+e0  equ  xmm1
+CENC_START_KEY     equ 2
+CENC_NUM_REG_KEYS  equ (3 * 2)
+; last_key equ @CatStr(xmm, %(CENC_START_KEY + CENC_NUM_REG_KEYS))
+MY_SEG_PROC AesCbc_Encode_HW, 3
+        MY_PROLOG (CENC_START_KEY + CENC_NUM_REG_KEYS + 0)
+        movdqa  state, [keys]
+        add     keys, 32
+        
+    i = 0
+    rept CENC_NUM_REG_KEYS
+        movdqa  @CatStr(xmm, %(CENC_START_KEY + i)), [keys + i * 16]
+        i = i + 1
+    endm
+                                        
+        add     keys, ksize_r
+        neg     ksize_r
+        add     ksize_r, (16 * CENC_NUM_REG_KEYS)
+        ; movdqa  last_key, [keys]
+        jmp     check_e
+    align 16
+    nextBlock_e:
+        movdqa  e0, [rD]
+        mov     koffs_r, ksize_r
+        pxor    e0, @CatStr(xmm, %(CENC_START_KEY))
+        pxor    state, e0
+        
+    i = 1
+    rept (CENC_NUM_REG_KEYS - 1)
+        aesenc  state, @CatStr(xmm, %(CENC_START_KEY + i))
+        i = i + 1
+    endm
+    @@:
+        OP_KEY  aesenc, 1 * koffs_r
+        OP_KEY  aesenc, 1 * koffs_r + 16
+        add     koffs_r, 32
+        jnz     @B
+        OP_KEY  aesenclast, 0
+        ; aesenclast state, last_key
+        
+        movdqa  [rD], state
+        add     rD, 16
+    check_e:
+        sub     rN, 1
+        jnc     nextBlock_e
+        ; movdqa  [keys - 32], state
+        movdqa  [keys + 1 * ksize_r - (16 * CENC_NUM_REG_KEYS) - 32], state
+MY_EPILOG
+MY_SEG_ENDP
+    
+; ---------- AES-CTR ----------
+ifdef x64
+        ; ways = 11
+endif
+       
+one             equ  @CatStr(xmm, %(ways_start_reg + ways + 1))
+one_ymm         equ  @CatStr(ymm, %(ways_start_reg + ways + 1))
+key0            equ  @CatStr(xmm, %(ways_start_reg + ways + 2))
+key0_ymm        equ  @CatStr(ymm, %(ways_start_reg + ways + 2))
+NUM_CTR_REGS    equ  (ways_start_reg + ways + 3)
+INIT_CTR macro reg, _ppp_
+        paddq   iv, one
+        movdqa  reg, iv
+endm
+MY_SEG_PROC AesCtr_Code_HW, 3
+    Ctr_start::
+        MY_PROLOG NUM_CTR_REGS
+    Ctr_start_2::
+        movdqa  iv, [keys]
+        add     keys, 32
+        movdqa  key0, [keys]
+        add     keys, ksize_r
+        neg     ksize_r
+        add     ksize_r, 16
+        
+    Ctr_start_3::
+        mov     koffs_x, 1
+        movd    one, koffs_x
+        jmp     check2_c
+    align 16
+    nextBlocks2_c:
+        WOP     INIT_CTR, 0
+        mov     koffs_r, ksize_r
+        ; WOP_KEY pxor, 1 * koffs_r -16
+        WOP     pxor, key0
+    @@:
+        WOP_KEY aesenc, 1 * koffs_r
+        add     koffs_r, 16
+        jnz     @B
+        WOP_KEY aesenclast, 0
+        
+        WOP     XOR_WITH_DATA
+        WOP     WRITE_TO_DATA
+        add     rD, ways * 16
+    check2_c:
+        sub     rN, ways
+        jnc     nextBlocks2_c
+        add     rN, ways
+        sub     keys, 16
+        add     ksize_r, 16
+        
+        jmp     check_c
+    ; align 16
+    nextBlock_c:
+        paddq   iv, one
+        ; movdqa  state, [keys + 1 * koffs_r - 16]
+        movdqa  state, key0
+        mov     koffs_r, ksize_r
+        pxor    state, iv
+        
+    @@:
+        OP_KEY  aesenc, 1 * koffs_r
+        OP_KEY  aesenc, 1 * koffs_r + 16
+        add     koffs_r, 32
+        jnz     @B
+        OP_KEY  aesenc, 0
+        OP_KEY  aesenclast, 16
+        
+        pxor    state, [rD]
+        movdqa  [rD], state
+        add     rD, 16
+    check_c:
+        sub     rN, 1
+        jnc     nextBlock_c
+        ; movdqa  [keys - 32], iv
+        movdqa  [keys + 1 * ksize_r - 16 - 32], iv
+MY_EPILOG
+MY_PROC AesCtr_Code_HW_256, 3
+  ifdef use_vaes_256
+        MY_PROLOG NUM_CTR_REGS
+        cmp    rN, ways * 2
+        jb     Ctr_start_2
+        vbroadcasti128  iv_ymm, xmmword ptr [keys]
+        add     keys, 32
+        vbroadcasti128  key0_ymm, xmmword ptr [keys]
+        mov     koffs_x, 1
+        vmovd           one, koffs_x
+        vpsubq  iv_ymm, iv_ymm, one_ymm
+        vpaddq  one, one, one
+        AVX__vinserti128_TO_HIGH     one_ymm, one
+        
+        add     keys, ksize_r
+        sub     ksize_x, 16
+        neg     ksize_r
+        mov     koffs_r, ksize_r
+        add     ksize_r, ksize_r
+        AVX_STACK_SUB = ((NUM_AES_KEYS_MAX + 1 - 1) * 32)
+        push    keys2
+        lea     keys2, [r4 - 32]
+        sub     r4, AVX_STACK_SUB
+        and     keys2, -32
+        vbroadcasti128  key_ymm, xmmword ptr [keys]
+        vmovdqa         ymmword ptr [keys2], key_ymm
+     @@:
+        vbroadcasti128  key_ymm, xmmword ptr [keys + 1 * koffs_r]
+        vmovdqa         ymmword ptr [keys2 + koffs_r * 2], key_ymm
+        add     koffs_r, 16
+        jnz     @B
+        sub     rN, ways * 2
+        
+    align 16
+    avx_ctr_nextBlock2:
+        mov             koffs_r, ksize_r
+        AVX__WOP        AVX__CTR_START
+        ; AVX__WOP_KEY    AVX__CTR_START, 1 * koffs_r - 32
+    @@:
+        AVX__WOP_KEY    AVX__VAES_ENC, 1 * koffs_r
+        add     koffs_r, 32
+        jnz     @B
+        AVX__WOP_KEY    AVX__VAES_ENC_LAST, 0
+       
+        AVX__WOP        AVX__XOR_WITH_DATA
+        AVX__WOP        AVX__WRITE_TO_DATA
+        
+        add     rD, ways * 32
+        sub     rN, ways * 2
+        jnc     avx_ctr_nextBlock2
+        add     rN, ways * 2
+        
+        vextracti128    iv, iv_ymm, 1
+        sar     ksize_r, 1
+       
+        add     r4, AVX_STACK_SUB
+        pop     keys2
+        
+        vzeroupper
+        jmp     Ctr_start_3
+  else
+        jmp     Ctr_start
+  endif
+MY_ENDP
+MY_SEG_ENDP
+end
diff --git a/Asm/x86/LzFindOpt.asm b/Asm/x86/LzFindOpt.asm
new file mode 100644
index 0000000..42e10bd
--- /dev/null
+++ b/Asm/x86/LzFindOpt.asm
@@ -0,0 +1,513 @@
+; LzFindOpt.asm -- ASM version of GetMatchesSpecN_2() function
+; 2021-07-21: Igor Pavlov : Public domain
+;
+ifndef x64
+; x64=1
+; .err <x64_IS_REQUIRED>
+endif
+include 7zAsm.asm
+MY_ASM_START
+_TEXT$LZFINDOPT SEGMENT ALIGN(64) 'CODE'
+MY_ALIGN macro num:req
+        align  num
+endm
+MY_ALIGN_32 macro
+        MY_ALIGN 32
+endm
+MY_ALIGN_64 macro
+        MY_ALIGN 64
+endm
+t0_L    equ x0_L
+t0_x    equ x0
+t0      equ r0
+t1_x    equ x3
+t1      equ r3
+cp_x    equ t1_x
+cp_r    equ t1
+m       equ x5
+m_r     equ r5
+len_x   equ x6
+len     equ r6
+diff_x  equ x7
+diff    equ r7
+len0    equ r10
+len1_x  equ x11
+len1    equ r11
+maxLen_x equ x12
+maxLen  equ r12
+d       equ r13
+ptr0    equ r14
+ptr1    equ r15
+d_lim       equ m_r
+cycSize     equ len_x
+hash_lim    equ len0
+delta1_x    equ len1_x
+delta1_r    equ len1
+delta_x     equ maxLen_x
+delta_r     equ maxLen
+hash        equ ptr0
+src         equ ptr1
+if (IS_LINUX gt 0)
+; r1 r2  r8 r9        : win32
+; r7 r6  r2 r1  r8 r9 : linux
+lenLimit        equ r8
+lenLimit_x      equ x8
+; pos_r           equ r2
+pos             equ x2
+cur             equ r1
+son             equ r9
+else
+lenLimit        equ REG_ABI_PARAM_2
+lenLimit_x      equ REG_ABI_PARAM_2_x
+pos             equ REG_ABI_PARAM_1_x
+cur             equ REG_ABI_PARAM_0
+son             equ REG_ABI_PARAM_3
+endif
+if (IS_LINUX gt 0)
+    maxLen_OFFS         equ  (REG_SIZE * (6 + 1))
+else
+    cutValue_OFFS       equ  (REG_SIZE * (8 + 1 + 4))
+    d_OFFS              equ  (REG_SIZE + cutValue_OFFS)
+    maxLen_OFFS         equ  (REG_SIZE + d_OFFS)
+endif
+    hash_OFFS           equ  (REG_SIZE + maxLen_OFFS)
+    limit_OFFS          equ  (REG_SIZE + hash_OFFS)
+    size_OFFS           equ  (REG_SIZE + limit_OFFS)
+    cycPos_OFFS         equ  (REG_SIZE + size_OFFS)
+    cycSize_OFFS        equ  (REG_SIZE + cycPos_OFFS)
+    posRes_OFFS         equ  (REG_SIZE + cycSize_OFFS)
+    
+if (IS_LINUX gt 0)
+else
+    cutValue_PAR        equ  [r0 + cutValue_OFFS]
+    d_PAR               equ  [r0 + d_OFFS]
+endif
+    maxLen_PAR          equ  [r0 + maxLen_OFFS]
+    hash_PAR            equ  [r0 + hash_OFFS]
+    limit_PAR           equ  [r0 + limit_OFFS]
+    size_PAR            equ  [r0 + size_OFFS]
+    cycPos_PAR          equ  [r0 + cycPos_OFFS]
+    cycSize_PAR         equ  [r0 + cycSize_OFFS]
+    posRes_PAR          equ  [r0 + posRes_OFFS]
+    cutValue_VAR        equ  DWORD PTR [r4 + 8 * 0]
+    cutValueCur_VAR     equ  DWORD PTR [r4 + 8 * 0 + 4]
+    cycPos_VAR          equ  DWORD PTR [r4 + 8 * 1 + 0]
+    cycSize_VAR         equ  DWORD PTR [r4 + 8 * 1 + 4]
+    hash_VAR            equ  QWORD PTR [r4 + 8 * 2]
+    limit_VAR           equ  QWORD PTR [r4 + 8 * 3]
+    size_VAR            equ  QWORD PTR [r4 + 8 * 4]
+    distances           equ  QWORD PTR [r4 + 8 * 5]
+    maxLen_VAR          equ  QWORD PTR [r4 + 8 * 6]
+    Old_RSP             equ  QWORD PTR [r4 + 8 * 7]
+    LOCAL_SIZE          equ  8 * 8
+COPY_VAR_32 macro dest_var, src_var
+        mov     x3, src_var
+        mov     dest_var, x3
+endm
+COPY_VAR_64 macro dest_var, src_var
+        mov     r3, src_var
+        mov     dest_var, r3
+endm
+; MY_ALIGN_64
+MY_PROC GetMatchesSpecN_2, 13
+MY_PUSH_PRESERVED_ABI_REGS
+        mov     r0, RSP
+        lea     r3, [r0 - LOCAL_SIZE]
+        and     r3, -64
+        mov     RSP, r3
+        mov     Old_RSP, r0
+if (IS_LINUX gt 0)
+        mov     d,            REG_ABI_PARAM_5       ; r13 = r9
+        mov     cutValue_VAR, REG_ABI_PARAM_4_x     ;     = r8
+        mov     son,          REG_ABI_PARAM_3       ;  r9 = r1
+        mov     r8,           REG_ABI_PARAM_2       ;  r8 = r2
+        mov     pos,          REG_ABI_PARAM_1_x     ;  r2 = x6
+        mov     r1,           REG_ABI_PARAM_0       ;  r1 = r7
+else
+        COPY_VAR_32 cutValue_VAR, cutValue_PAR
+        mov     d, d_PAR
+endif
+        COPY_VAR_64 limit_VAR, limit_PAR
+        
+        mov     hash_lim, size_PAR
+        mov     size_VAR, hash_lim
+        
+        mov     cp_x, cycPos_PAR
+        mov     hash, hash_PAR
+        mov     cycSize, cycSize_PAR
+        mov     cycSize_VAR, cycSize
+        
+        ; we want cur in (rcx). So we change the cur and lenLimit variables
+        sub     lenLimit, cur
+        neg     lenLimit_x
+        inc     lenLimit_x
+        
+        mov     t0_x, maxLen_PAR
+        sub     t0, lenLimit
+        mov     maxLen_VAR, t0
+        jmp     main_loop
+MY_ALIGN_64
+fill_empty:
+        ; ptr0 = *ptr1 = kEmptyHashValue;
+        mov     QWORD PTR [ptr1], 0
+        inc     pos
+        inc     cp_x
+        mov     DWORD PTR [d - 4], 0
+        cmp     d, limit_VAR
+        jae     fin
+        cmp     hash, hash_lim
+        je      fin
+; MY_ALIGN_64
+main_loop:
+        ; UInt32 delta = *hash++;
+        mov     diff_x, [hash]  ; delta
+        add     hash, 4
+        ; mov     cycPos_VAR, cp_x
+       
+        inc     cur
+        add     d, 4
+        mov     m, pos
+        sub     m, diff_x;      ; matchPos
+        
+        ; CLzRef *ptr1 = son + ((size_t)(pos) << 1) - CYC_TO_POS_OFFSET * 2;
+        lea     ptr1, [son + 8 * cp_r]
+        ; mov     cycSize, cycSize_VAR
+        cmp     pos, cycSize
+        jb      directMode      ; if (pos < cycSize_VAR)
+        
+        ; CYC MODE
+        cmp     diff_x, cycSize
+        jae     fill_empty      ; if (delta >= cycSize_VAR)
+        
+        xor     t0_x, t0_x
+        mov     cycPos_VAR, cp_x
+        sub     cp_x, diff_x
+        ; jae     prepare_for_tree_loop
+        ; add     cp_x, cycSize
+        cmovb   t0_x, cycSize
+        add     cp_x, t0_x      ; cp_x +=  (cycPos < delta ? cycSize : 0)
+        jmp     prepare_for_tree_loop
+        
+        
+directMode:
+        cmp     diff_x,  pos
+        je      fill_empty      ; if (delta == pos)
+        jae     fin_error       ; if (delta >= pos)
+        
+        mov     cycPos_VAR, cp_x
+        mov     cp_x, m
+        
+prepare_for_tree_loop:
+        mov     len0, lenLimit
+        mov     hash_VAR, hash
+        ; CLzRef *ptr0 = son + ((size_t)(pos) << 1) - CYC_TO_POS_OFFSET * 2 + 1;
+        lea     ptr0, [ptr1 + 4]
+        ; UInt32 *_distances = ++d;
+        mov     distances, d
+        neg     len0
+        mov     len1, len0
+        mov     t0_x, cutValue_VAR
+        mov     maxLen, maxLen_VAR
+        mov     cutValueCur_VAR, t0_x
+MY_ALIGN_32
+tree_loop:
+        neg     diff
+        mov     len, len0
+        cmp     len1, len0
+        cmovb   len, len1       ; len = (len1 < len0 ? len1 : len0);
+        add     diff, cur
+        mov     t0_x, [son + cp_r * 8]  ; prefetch
+        movzx   t0_x, BYTE PTR [diff + 1 * len]
+        lea     cp_r, [son + cp_r * 8]
+        cmp     [cur + 1 * len], t0_L
+        je      matched_1
+        
+        jb      left_0
+        mov     [ptr1], m
+        mov        m, [cp_r + 4]
+        lea     ptr1, [cp_r + 4]
+        sub     diff, cur ; FIX32
+        jmp     next_node
+MY_ALIGN_32
+left_0:
+        mov     [ptr0], m
+        mov        m, [cp_r]
+        mov     ptr0, cp_r
+        sub     diff, cur ; FIX32
+        ; jmp     next_node
+; ------------ NEXT NODE ------------
+; MY_ALIGN_32
+next_node:
+        mov     cycSize, cycSize_VAR
+        dec     cutValueCur_VAR
+        je      finish_tree
+        
+        add     diff_x, pos     ; prev_match = pos + diff
+        cmp     m, diff_x
+        jae     fin_error       ; if (new_match >= prev_match)
+        
+        mov     diff_x, pos
+        sub     diff_x, m       ; delta = pos - new_match
+        cmp     pos, cycSize
+        jae     cyc_mode_2      ; if (pos >= cycSize)
+        mov     cp_x, m
+        test    m, m
+        jne     tree_loop       ; if (m != 0)
+        
+finish_tree:
+        ; ptr0 = *ptr1 = kEmptyHashValue;
+        mov     DWORD PTR [ptr0], 0
+        mov     DWORD PTR [ptr1], 0
+        inc     pos
+        
+        ; _distances[-1] = (UInt32)(d - _distances);
+        mov     t0, distances
+        mov     t1, d
+        sub     t1, t0
+        shr     t1_x, 2
+        mov     [t0 - 4], t1_x
+        cmp     d, limit_VAR
+        jae     fin             ; if (d >= limit)
+   
+        mov     cp_x, cycPos_VAR
+        mov     hash, hash_VAR
+        mov     hash_lim, size_VAR
+        inc     cp_x
+        cmp     hash, hash_lim
+        jne     main_loop       ; if (hash != size)
+        jmp     fin
+        
+MY_ALIGN_32
+cyc_mode_2:
+        cmp     diff_x, cycSize
+        jae     finish_tree     ; if (delta >= cycSize)
+        mov     cp_x, cycPos_VAR
+        xor     t0_x, t0_x
+        sub     cp_x, diff_x    ; cp_x = cycPos - delta
+        cmovb   t0_x, cycSize
+        add     cp_x, t0_x      ; cp_x += (cycPos < delta ? cycSize : 0)
+        jmp     tree_loop
+        
+MY_ALIGN_32
+matched_1:
+        inc     len
+        ; cmp     len_x, lenLimit_x
+        je      short lenLimit_reach
+        movzx   t0_x, BYTE PTR [diff + 1 * len]
+        cmp     [cur + 1 * len], t0_L
+        jne     mismatch
+        
+MY_ALIGN_32
+match_loop:
+        ;  while (++len != lenLimit)  (len[diff] != len[0]) ;
+        inc     len
+        ; cmp     len_x, lenLimit_x
+        je      short lenLimit_reach
+        movzx   t0_x, BYTE PTR [diff + 1 * len]
+        cmp     BYTE PTR [cur + 1 * len], t0_L
+        je      match_loop
+mismatch:
+        jb      left_2
+        mov     [ptr1], m
+        mov        m, [cp_r + 4]
+        lea     ptr1, [cp_r + 4]
+        mov     len1, len
+        jmp     max_update
+        
+MY_ALIGN_32
+left_2:
+        mov     [ptr0], m
+        mov        m, [cp_r]
+        mov     ptr0, cp_r
+        mov     len0, len
+max_update:
+        sub     diff, cur       ; restore diff
+        cmp     maxLen, len
+        jae     next_node
+        
+        mov     maxLen, len
+        add     len, lenLimit
+        mov     [d], len_x
+        mov     t0_x, diff_x
+        not     t0_x
+        mov     [d + 4], t0_x
+        add     d, 8
+       
+        jmp     next_node
+        
+MY_ALIGN_32
+lenLimit_reach:
+        mov     delta_r, cur
+        sub     delta_r, diff
+        lea     delta1_r, [delta_r - 1]
+        mov     t0_x, [cp_r]
+        mov     [ptr1], t0_x
+        mov     t0_x, [cp_r + 4]
+        mov     [ptr0], t0_x
+        mov     [d], lenLimit_x
+        mov     [d + 4], delta1_x
+        add     d, 8
+        ; _distances[-1] = (UInt32)(d - _distances);
+        mov     t0, distances
+        mov     t1, d
+        sub     t1, t0
+        shr     t1_x, 2
+        mov     [t0 - 4], t1_x
+        mov     hash, hash_VAR
+        mov     hash_lim, size_VAR
+        inc     pos
+        mov     cp_x, cycPos_VAR
+        inc     cp_x
+        mov     d_lim, limit_VAR
+        mov     cycSize, cycSize_VAR
+        ; if (hash == size || *hash != delta || lenLimit[diff] != lenLimit[0] || d >= limit)
+        ;    break;
+        cmp     hash, hash_lim
+        je      fin
+        cmp     d, d_lim
+        jae     fin
+        cmp     delta_x, [hash]
+        jne     main_loop
+        movzx   t0_x, BYTE PTR [diff]
+        cmp     [cur], t0_L
+        jne     main_loop
+        ; jmp     main_loop     ; bypass for debug
+        
+        mov     cycPos_VAR, cp_x
+        shl     len, 3          ; cycSize * 8
+        sub     diff, cur       ; restore diff
+        xor     t0_x, t0_x
+        cmp     cp_x, delta_x   ; cmp (cycPos_VAR, delta)
+        lea     cp_r, [son + 8 * cp_r]  ; dest
+        lea     src, [cp_r + 8 * diff]
+        cmovb   t0, len         ; t0 =  (cycPos_VAR < delta ? cycSize * 8 : 0)
+        add     src, t0
+        add     len, son        ; len = son + cycSize * 8
+       
+MY_ALIGN_32
+long_loop:
+        add     hash, 4
+        
+        ; *(UInt64 *)(void *)ptr = ((const UInt64 *)(const void *)ptr)[diff];
+        
+        mov     t0, [src]
+        add     src, 8
+        mov     [cp_r], t0
+        add     cp_r, 8
+        cmp     src, len
+        cmove   src, son       ; if end of (son) buffer is reached, we wrap to begin
+        mov     DWORD PTR [d], 2
+        mov     [d + 4], lenLimit_x
+        mov     [d + 8], delta1_x
+        add     d, 12
+        inc     cur
+        cmp     hash, hash_lim
+        je      long_footer
+        cmp     delta_x, [hash]
+        jne     long_footer
+        movzx   t0_x, BYTE PTR [diff + 1 * cur]
+        cmp     [cur], t0_L
+        jne     long_footer
+        cmp     d, d_lim
+        jb      long_loop
+long_footer:
+        sub     cp_r, son
+        shr     cp_r, 3
+        add     pos, cp_x
+        sub     pos, cycPos_VAR
+        mov     cycSize, cycSize_VAR
+        
+        cmp     d, d_lim
+        jae     fin
+        cmp     hash, hash_lim
+        jne     main_loop
+        jmp     fin
+fin_error:
+        xor     d, d
+        
+fin:
+        mov     RSP, Old_RSP
+        mov     t0, [r4 + posRes_OFFS]
+        mov     [t0], pos
+        mov     r0, d
+MY_POP_PRESERVED_ABI_REGS
+MY_ENDP
+_TEXT$LZFINDOPT ENDS
+end
diff --git a/Asm/x86/LzmaDecOpt.asm b/Asm/x86/LzmaDecOpt.asm
new file mode 100644
index 0000000..f2818e7
--- /dev/null
+++ b/Asm/x86/LzmaDecOpt.asm
@@ -0,0 +1,1303 @@
+; LzmaDecOpt.asm -- ASM version of LzmaDec_DecodeReal_3() function
+; 2021-02-23: Igor Pavlov : Public domain
+;
+; 3 - is the code compatibility version of LzmaDec_DecodeReal_*()
+; function for check at link time.
+; That code is tightly coupled with LzmaDec_TryDummy()
+; and with another functions in LzmaDec.c file.
+; CLzmaDec structure, (probs) array layout, input and output of
+; LzmaDec_DecodeReal_*() must be equal in both versions (C / ASM).
+ifndef x64
+; x64=1
+; .err <x64_IS_REQUIRED>
+endif
+include 7zAsm.asm
+MY_ASM_START
+_TEXT$LZMADECOPT SEGMENT ALIGN(64) 'CODE'
+MY_ALIGN macro num:req
+        align  num
+endm
+MY_ALIGN_16 macro
+        MY_ALIGN 16
+endm
+MY_ALIGN_32 macro
+        MY_ALIGN 32
+endm
+MY_ALIGN_64 macro
+        MY_ALIGN 64
+endm
+; _LZMA_SIZE_OPT  equ 1
+; _LZMA_PROB32 equ 1
+ifdef _LZMA_PROB32
+        PSHIFT  equ 2
+        PLOAD macro dest, mem
+                mov     dest, dword ptr [mem]
+        endm
+        PSTORE  macro src, mem
+                mov     dword ptr [mem], src
+        endm
+else
+        PSHIFT  equ 1
+        PLOAD macro dest, mem
+                movzx   dest, word ptr [mem]
+        endm
+        PSTORE macro src, mem
+                mov     word ptr [mem], @CatStr(src, _W)
+        endm
+endif
+PMULT           equ (1 SHL PSHIFT)
+PMULT_HALF      equ (1 SHL (PSHIFT - 1))
+PMULT_2         equ (1 SHL (PSHIFT + 1))
+kMatchSpecLen_Error_Data equ (1 SHL 9)
+;       x0      range
+;       x1      pbPos / (prob) TREE
+;       x2      probBranch / prm (MATCHED) / pbPos / cnt
+;       x3      sym
+;====== r4 ===  RSP
+;       x5      cod
+;       x6      t1 NORM_CALC / probs_state / dist
+;       x7      t0 NORM_CALC / prob2 IF_BIT_1
+;       x8      state
+;       x9      match (MATCHED) / sym2 / dist2 / lpMask_reg
+;       x10     kBitModelTotal_reg
+;       r11     probs
+;       x12     offs (MATCHED) / dic / len_temp
+;       x13     processedPos
+;       x14     bit (MATCHED) / dicPos
+;       r15     buf
+cod     equ x5
+cod_L   equ x5_L
+range   equ x0
+state   equ x8
+state_R equ r8
+buf     equ r15
+processedPos equ x13
+kBitModelTotal_reg equ x10
+probBranch   equ x2
+probBranch_R equ r2
+probBranch_W equ x2_W
+pbPos   equ x1
+pbPos_R equ r1
+cnt     equ x2
+cnt_R   equ r2
+lpMask_reg equ x9
+dicPos  equ r14
+sym     equ x3
+sym_R   equ r3
+sym_L   equ x3_L
+probs   equ r11
+dic     equ r12
+t0      equ x7
+t0_W    equ x7_W
+t0_R    equ r7
+prob2   equ t0
+prob2_W equ t0_W
+t1      equ x6
+t1_R    equ r6
+probs_state     equ t1
+probs_state_R   equ t1_R
+prm     equ r2
+match   equ x9
+match_R equ r9
+offs    equ x12
+offs_R  equ r12
+bit     equ x14
+bit_R   equ r14
+sym2    equ x9
+sym2_R  equ r9
+len_temp equ x12
+dist    equ sym
+dist2   equ x9
+kNumBitModelTotalBits   equ 11
+kBitModelTotal          equ (1 SHL kNumBitModelTotalBits)
+kNumMoveBits            equ 5
+kBitModelOffset         equ ((1 SHL kNumMoveBits) - 1)
+kTopValue               equ (1 SHL 24)
+NORM_2 macro
+        ; movzx   t0, BYTE PTR [buf]
+        shl     cod, 8
+        mov     cod_L, BYTE PTR [buf]
+        shl     range, 8
+        ; or      cod, t0
+        inc     buf
+endm
+NORM macro
+        cmp     range, kTopValue
+        jae     SHORT @F
+        NORM_2
+@@:
+endm
+; ---------- Branch MACROS ----------
+UPDATE_0 macro probsArray:req, probOffset:req, probDisp:req
+        mov     prob2, kBitModelTotal_reg
+        sub     prob2, probBranch
+        shr     prob2, kNumMoveBits
+        add     probBranch, prob2
+        PSTORE  probBranch, probOffset * 1 + probsArray + probDisp * PMULT
+endm
+UPDATE_1 macro probsArray:req, probOffset:req, probDisp:req
+        sub     prob2, range
+        sub     cod, range
+        mov     range, prob2
+        mov     prob2, probBranch
+        shr     probBranch, kNumMoveBits
+        sub     prob2, probBranch
+        PSTORE  prob2, probOffset * 1 + probsArray + probDisp * PMULT
+endm
+CMP_COD macro probsArray:req, probOffset:req, probDisp:req
+        PLOAD   probBranch, probOffset * 1 + probsArray + probDisp * PMULT
+        NORM
+        mov     prob2, range
+        shr     range, kNumBitModelTotalBits
+        imul    range, probBranch
+        cmp     cod, range
+endm
+IF_BIT_1_NOUP macro probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        CMP_COD probsArray, probOffset, probDisp
+        jae     toLabel
+endm
+IF_BIT_1 macro probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        IF_BIT_1_NOUP probsArray, probOffset, probDisp, toLabel
+        UPDATE_0 probsArray, probOffset, probDisp
+endm
+IF_BIT_0_NOUP macro probsArray:req, probOffset:req, probDisp:req, toLabel:req
+        CMP_COD probsArray, probOffset, probDisp
+        jb      toLabel
+endm
+; ---------- CMOV MACROS ----------
+NORM_CALC macro prob:req
+        NORM
+        mov     t0, range
+        shr     range, kNumBitModelTotalBits
+        imul    range, prob
+        sub     t0, range
+        mov     t1, cod
+        sub     cod, range
+endm
+PUP macro prob:req, probPtr:req
+        sub     t0, prob
+       ; only sar works for both 16/32 bit prob modes
+        sar     t0, kNumMoveBits
+        add     t0, prob
+        PSTORE  t0, probPtr
+endm
+PUP_SUB macro prob:req, probPtr:req, symSub:req
+        sbb     sym, symSub
+        PUP prob, probPtr
+endm
+PUP_COD macro prob:req, probPtr:req, symSub:req
+        mov     t0, kBitModelOffset
+        cmovb   cod, t1
+        mov     t1, sym
+        cmovb   t0, kBitModelTotal_reg
+        PUP_SUB prob, probPtr, symSub
+endm
+BIT_0 macro prob:req, probNext:req
+        PLOAD   prob, probs + 1 * PMULT
+        PLOAD   probNext, probs + 1 * PMULT_2
+        NORM_CALC prob
+        
+        cmovae  range, t0
+        PLOAD   t0, probs + 1 * PMULT_2 + PMULT
+        cmovae  probNext, t0
+        mov     t0, kBitModelOffset
+        cmovb   cod, t1
+        cmovb   t0, kBitModelTotal_reg
+        mov     sym, 2
+        PUP_SUB prob, probs + 1 * PMULT, 0 - 1
+endm
+BIT_1 macro prob:req, probNext:req
+        PLOAD   probNext, probs + sym_R * PMULT_2
+        add     sym, sym
+        
+        NORM_CALC prob
+        
+        cmovae  range, t0
+        PLOAD   t0, probs + sym_R * PMULT + PMULT
+        cmovae  probNext, t0
+        PUP_COD prob, probs + t1_R * PMULT_HALF, 0 - 1
+endm
+BIT_2 macro prob:req, symSub:req
+        add     sym, sym
+        NORM_CALC prob
+        
+        cmovae  range, t0
+        PUP_COD prob, probs + t1_R * PMULT_HALF, symSub
+endm
+; ---------- MATCHED LITERAL ----------
+LITM_0 macro
+        mov     offs, 256 * PMULT
+        shl     match, (PSHIFT + 1)
+        mov     bit, offs
+        and     bit, match
+        PLOAD   x1, probs + 256 * PMULT + bit_R * 1 + 1 * PMULT
+        lea     prm, [probs + 256 * PMULT + bit_R * 1 + 1 * PMULT]
+        ; lea     prm, [probs + 256 * PMULT + 1 * PMULT]
+        ; add     prm, bit_R
+        xor     offs, bit
+        add     match, match
+        NORM_CALC x1
+        cmovae  offs, bit
+        mov     bit, match
+        cmovae  range, t0
+        mov     t0, kBitModelOffset
+        cmovb   cod, t1
+        cmovb   t0, kBitModelTotal_reg
+        mov     sym, 0
+        PUP_SUB x1, prm, -2-1
+endm
+LITM macro
+        and     bit, offs
+        lea     prm, [probs + offs_R * 1]
+        add     prm, bit_R
+        PLOAD   x1, prm + sym_R * PMULT
+        xor     offs, bit
+        add     sym, sym
+        add     match, match
+        NORM_CALC x1
+        cmovae  offs, bit
+        mov     bit, match
+        cmovae  range, t0
+        PUP_COD x1, prm + t1_R * PMULT_HALF, - 1
+endm
+LITM_2 macro
+        and     bit, offs
+        lea     prm, [probs + offs_R * 1]
+        add     prm, bit_R
+        PLOAD   x1, prm + sym_R * PMULT
+        add     sym, sym
+        NORM_CALC x1
+        cmovae  range, t0
+        PUP_COD x1, prm + t1_R * PMULT_HALF, 256 - 1
+endm
+; ---------- REVERSE BITS ----------
+REV_0 macro prob:req, probNext:req
+        ; PLOAD   prob, probs + 1 * PMULT
+        ; lea     sym2_R, [probs + 2 * PMULT]
+        ; PLOAD   probNext, probs + 2 * PMULT
+        PLOAD   probNext, sym2_R
+        NORM_CALC prob
+        cmovae  range, t0
+        PLOAD   t0, probs + 3 * PMULT
+        cmovae  probNext, t0
+        cmovb   cod, t1
+        mov     t0, kBitModelOffset
+        cmovb   t0, kBitModelTotal_reg
+        lea     t1_R, [probs + 3 * PMULT]
+        cmovae  sym2_R, t1_R
+        PUP prob, probs + 1 * PMULT
+endm
+REV_1 macro prob:req, probNext:req, step:req
+        add     sym2_R, step * PMULT
+        PLOAD   probNext, sym2_R
+        NORM_CALC prob
+        cmovae  range, t0
+        PLOAD   t0, sym2_R + step * PMULT
+        cmovae  probNext, t0
+        cmovb   cod, t1
+        mov     t0, kBitModelOffset
+        cmovb   t0, kBitModelTotal_reg
+        lea     t1_R, [sym2_R + step * PMULT]
+        cmovae  sym2_R, t1_R
+        PUP prob, t1_R - step * PMULT_2
+endm
+REV_2 macro prob:req, step:req
+        sub     sym2_R, probs
+        shr     sym2, PSHIFT
+        or      sym, sym2
+        NORM_CALC prob
+        cmovae  range, t0
+        lea     t0, [sym - step]
+        cmovb   sym, t0
+        cmovb   cod, t1
+        mov     t0, kBitModelOffset
+        cmovb   t0, kBitModelTotal_reg
+        PUP prob, probs + sym2_R * PMULT
+endm
+REV_1_VAR macro prob:req
+        PLOAD   prob, sym_R
+        mov     probs, sym_R
+        add     sym_R, sym2_R
+        NORM_CALC prob
+        cmovae  range, t0
+        lea     t0_R, [sym_R + 1 * sym2_R]
+        cmovae  sym_R, t0_R
+        mov     t0, kBitModelOffset
+        cmovb   cod, t1
+        ; mov     t1, kBitModelTotal
+        ; cmovb   t0, t1
+        cmovb   t0, kBitModelTotal_reg
+        add     sym2, sym2
+        PUP prob, probs
+endm
+LIT_PROBS macro lpMaskParam:req
+        ; prob += (UInt32)3 * ((((processedPos << 8) + dic[(dicPos == 0 ? dicBufSize : dicPos) - 1]) & lpMask) << lc);
+        mov     t0, processedPos
+        shl     t0, 8
+        add     sym, t0
+        and     sym, lpMaskParam
+        add     probs_state_R, pbPos_R
+        mov     x1, LOC lc2
+        lea     sym, dword ptr[sym_R + 2 * sym_R]
+        add     probs, Literal * PMULT
+        shl     sym, x1_L
+        add     probs, sym_R
+        UPDATE_0 probs_state_R, 0, IsMatch
+        inc     processedPos
+endm
+kNumPosBitsMax          equ 4
+kNumPosStatesMax        equ (1 SHL kNumPosBitsMax)
+kLenNumLowBits          equ 3
+kLenNumLowSymbols       equ (1 SHL kLenNumLowBits)
+kLenNumHighBits         equ 8
+kLenNumHighSymbols      equ (1 SHL kLenNumHighBits)
+kNumLenProbs            equ (2 * kLenNumLowSymbols * kNumPosStatesMax + kLenNumHighSymbols)
+LenLow                  equ 0
+LenChoice               equ LenLow
+LenChoice2              equ (LenLow + kLenNumLowSymbols)
+LenHigh                 equ (LenLow + 2 * kLenNumLowSymbols * kNumPosStatesMax)
+kNumStates              equ 12
+kNumStates2             equ 16
+kNumLitStates           equ 7
+kStartPosModelIndex     equ 4
+kEndPosModelIndex       equ 14
+kNumFullDistances       equ (1 SHL (kEndPosModelIndex SHR 1))
+kNumPosSlotBits         equ 6
+kNumLenToPosStates      equ 4
+kNumAlignBits           equ 4
+kAlignTableSize         equ (1 SHL kNumAlignBits)
+kMatchMinLen            equ 2
+kMatchSpecLenStart      equ (kMatchMinLen + kLenNumLowSymbols * 2 + kLenNumHighSymbols)
+kStartOffset    equ 1664
+SpecPos         equ (-kStartOffset)
+IsRep0Long      equ (SpecPos + kNumFullDistances)
+RepLenCoder     equ (IsRep0Long + (kNumStates2 SHL kNumPosBitsMax))
+LenCoder        equ (RepLenCoder + kNumLenProbs)
+IsMatch         equ (LenCoder + kNumLenProbs)
+kAlign          equ (IsMatch + (kNumStates2 SHL kNumPosBitsMax))
+IsRep           equ (kAlign + kAlignTableSize)
+IsRepG0         equ (IsRep + kNumStates)
+IsRepG1         equ (IsRepG0 + kNumStates)
+IsRepG2         equ (IsRepG1 + kNumStates)
+PosSlot         equ (IsRepG2 + kNumStates)
+Literal         equ (PosSlot + (kNumLenToPosStates SHL kNumPosSlotBits))
+NUM_BASE_PROBS  equ (Literal + kStartOffset)
+if kAlign ne 0
+  .err <Stop_Compiling_Bad_LZMA_kAlign>
+endif
+if NUM_BASE_PROBS ne 1984
+  .err <Stop_Compiling_Bad_LZMA_PROBS>
+endif
+PTR_FIELD equ dq ?
+CLzmaDec_Asm struct
+        lc      db ?
+        lp      db ?
+        pb      db ?
+        _pad_   db ?
+        dicSize dd ?
+        probs_Spec      PTR_FIELD
+        probs_1664      PTR_FIELD
+        dic_Spec        PTR_FIELD
+        dicBufSize      PTR_FIELD
+        dicPos_Spec     PTR_FIELD
+        buf_Spec        PTR_FIELD
+        range_Spec      dd ?
+        code_Spec       dd ?
+        processedPos_Spec  dd ?
+        checkDicSize    dd ?
+        rep0    dd ?
+        rep1    dd ?
+        rep2    dd ?
+        rep3    dd ?
+        state_Spec      dd ?
+        remainLen dd ?
+CLzmaDec_Asm ends
+CLzmaDec_Asm_Loc struct
+        OLD_RSP    PTR_FIELD
+        lzmaPtr    PTR_FIELD
+        _pad0_     PTR_FIELD
+        _pad1_     PTR_FIELD
+        _pad2_     PTR_FIELD
+        dicBufSize PTR_FIELD
+        probs_Spec PTR_FIELD
+        dic_Spec   PTR_FIELD
+        
+        limit      PTR_FIELD
+        bufLimit   PTR_FIELD
+        lc2       dd ?
+        lpMask    dd ?
+        pbMask    dd ?
+        checkDicSize   dd ?
+        _pad_     dd ?
+        remainLen dd ?
+        dicPos_Spec     PTR_FIELD
+        rep0      dd ?
+        rep1      dd ?
+        rep2      dd ?
+        rep3      dd ?
+CLzmaDec_Asm_Loc ends
+GLOB_2  equ [sym_R].CLzmaDec_Asm.
+GLOB    equ [r1].CLzmaDec_Asm.
+LOC_0   equ [r0].CLzmaDec_Asm_Loc.
+LOC     equ [RSP].CLzmaDec_Asm_Loc.
+COPY_VAR macro name
+        mov     t0, GLOB_2 name
+        mov     LOC_0 name, t0
+endm
+RESTORE_VAR macro name
+        mov     t0, LOC name
+        mov     GLOB name, t0
+endm
+IsMatchBranch_Pre macro reg
+        ; prob = probs + IsMatch + (state << kNumPosBitsMax) + posState;
+        mov     pbPos, LOC pbMask
+        and     pbPos, processedPos
+        shl     pbPos, (kLenNumLowBits + 1 + PSHIFT)
+        lea     probs_state_R, [probs + 1 * state_R]
+endm
+IsMatchBranch macro reg
+        IsMatchBranch_Pre
+        IF_BIT_1 probs_state_R, pbPos_R, IsMatch, IsMatch_label
+endm
+        
+CheckLimits macro reg
+        cmp     buf, LOC bufLimit
+        jae     fin_OK
+        cmp     dicPos, LOC limit
+        jae     fin_OK
+endm
+; RSP is (16x + 8) bytes aligned in WIN64-x64
+; LocalSize equ ((((SIZEOF CLzmaDec_Asm_Loc) + 7) / 16 * 16) + 8)
+PARAM_lzma      equ REG_ABI_PARAM_0
+PARAM_limit     equ REG_ABI_PARAM_1
+PARAM_bufLimit  equ REG_ABI_PARAM_2
+; MY_ALIGN_64
+MY_PROC LzmaDec_DecodeReal_3, 3
+MY_PUSH_PRESERVED_ABI_REGS
+        lea     r0, [RSP - (SIZEOF CLzmaDec_Asm_Loc)]
+        and     r0, -128
+        mov     r5, RSP
+        mov     RSP, r0
+        mov     LOC_0 Old_RSP, r5
+        mov     LOC_0 lzmaPtr, PARAM_lzma
+        
+        mov     LOC_0 remainLen, 0  ; remainLen must be ZERO
+        mov     LOC_0 bufLimit, PARAM_bufLimit
+        mov     sym_R, PARAM_lzma  ;  CLzmaDec_Asm_Loc pointer for GLOB_2
+        mov     dic, GLOB_2 dic_Spec
+        add     PARAM_limit, dic
+        mov     LOC_0 limit, PARAM_limit
+        COPY_VAR(rep0)
+        COPY_VAR(rep1)
+        COPY_VAR(rep2)
+        COPY_VAR(rep3)
+        
+        mov     dicPos, GLOB_2 dicPos_Spec
+        add     dicPos, dic
+        mov     LOC_0 dicPos_Spec, dicPos
+        mov     LOC_0 dic_Spec, dic
+        
+        mov     x1_L, GLOB_2 pb
+        mov     t0, 1
+        shl     t0, x1_L
+        dec     t0
+        mov     LOC_0 pbMask, t0
+        ; unsigned pbMask = ((unsigned)1 << (p->prop.pb)) - 1;
+        ; unsigned lc = p->prop.lc;
+        ; unsigned lpMask = ((unsigned)0x100 << p->prop.lp) - ((unsigned)0x100 >> lc);
+        mov     x1_L, GLOB_2 lc
+        mov     x2, 100h
+        mov     t0, x2
+        shr     x2, x1_L
+        ; inc     x1
+        add     x1_L, PSHIFT
+        mov     LOC_0 lc2, x1
+        mov     x1_L, GLOB_2 lp
+        shl     t0, x1_L
+        sub     t0, x2
+        mov     LOC_0 lpMask, t0
+        mov     lpMask_reg, t0
+        
+        ; mov     probs, GLOB_2 probs_Spec
+        ; add     probs, kStartOffset SHL PSHIFT
+        mov     probs, GLOB_2 probs_1664
+        mov     LOC_0 probs_Spec, probs
+        mov     t0_R, GLOB_2 dicBufSize
+        mov     LOC_0 dicBufSize, t0_R
+       
+        mov     x1, GLOB_2 checkDicSize
+        mov     LOC_0 checkDicSize, x1
+        mov     processedPos, GLOB_2 processedPos_Spec
+        mov     state, GLOB_2 state_Spec
+        shl     state, PSHIFT
+        mov     buf,   GLOB_2 buf_Spec
+        mov     range, GLOB_2 range_Spec
+        mov     cod,   GLOB_2 code_Spec
+        mov     kBitModelTotal_reg, kBitModelTotal
+        xor     sym, sym
+        ; if (processedPos != 0 || checkDicSize != 0)
+        or      x1, processedPos
+        jz      @f
+        
+        add     t0_R, dic
+        cmp     dicPos, dic
+        cmovnz  t0_R, dicPos
+        movzx   sym, byte ptr[t0_R - 1]
+@@:
+        IsMatchBranch_Pre
+        cmp     state, 4 * PMULT
+        jb      lit_end
+        cmp     state, kNumLitStates * PMULT
+        jb      lit_matched_end
+        jmp     lz_end
+        
+        
+; ---------- LITERAL ----------
+MY_ALIGN_64
+lit_start:
+        xor     state, state
+lit_start_2:
+        LIT_PROBS lpMask_reg
+    ifdef _LZMA_SIZE_OPT
+        PLOAD   x1, probs + 1 * PMULT
+        mov     sym, 1
+MY_ALIGN_16
+lit_loop:
+        BIT_1   x1, x2
+        mov     x1, x2
+        cmp     sym, 127
+        jbe     lit_loop
+        
+    else
+        
+        BIT_0   x1, x2
+        BIT_1   x2, x1
+        BIT_1   x1, x2
+        BIT_1   x2, x1
+        BIT_1   x1, x2
+        BIT_1   x2, x1
+        BIT_1   x1, x2
+        
+    endif
+        BIT_2   x2, 256 - 1
+        
+        ; mov     dic, LOC dic_Spec
+        mov     probs, LOC probs_Spec
+        IsMatchBranch_Pre
+        mov     byte ptr[dicPos], sym_L
+        inc     dicPos
+                
+        CheckLimits
+lit_end:
+        IF_BIT_0_NOUP probs_state_R, pbPos_R, IsMatch, lit_start
+        ; jmp     IsMatch_label
+        
+; ---------- MATCHES ----------
+; MY_ALIGN_32
+IsMatch_label:
+        UPDATE_1 probs_state_R, pbPos_R, IsMatch
+        IF_BIT_1 probs_state_R, 0, IsRep, IsRep_label
+        add     probs, LenCoder * PMULT
+        add     state, kNumStates * PMULT
+; ---------- LEN DECODE ----------
+len_decode:
+        mov     len_temp, 8 - 1 - kMatchMinLen
+        IF_BIT_0_NOUP probs, 0, 0, len_mid_0
+        UPDATE_1 probs, 0, 0
+        add     probs, (1 SHL (kLenNumLowBits + PSHIFT))
+        mov     len_temp, -1 - kMatchMinLen
+        IF_BIT_0_NOUP probs, 0, 0, len_mid_0
+        UPDATE_1 probs, 0, 0
+        add     probs, LenHigh * PMULT - (1 SHL (kLenNumLowBits + PSHIFT))
+        mov     sym, 1
+        PLOAD   x1, probs + 1 * PMULT
+MY_ALIGN_32
+len8_loop:
+        BIT_1   x1, x2
+        mov     x1, x2
+        cmp     sym, 64
+        jb      len8_loop
+        
+        mov     len_temp, (kLenNumHighSymbols - kLenNumLowSymbols * 2) - 1 - kMatchMinLen
+        jmp     short len_mid_2 ; we use short here for MASM that doesn't optimize that code as another assembler programs
+        
+MY_ALIGN_32
+len_mid_0:
+        UPDATE_0 probs, 0, 0
+        add     probs, pbPos_R
+        BIT_0   x2, x1
+len_mid_2:
+        BIT_1   x1, x2
+        BIT_2   x2, len_temp
+        mov     probs, LOC probs_Spec
+        cmp     state, kNumStates * PMULT
+        jb      copy_match
+        
+; ---------- DECODE DISTANCE ----------
+        ; probs + PosSlot + ((len < kNumLenToPosStates ? len : kNumLenToPosStates - 1) << kNumPosSlotBits);
+        mov     t0, 3 + kMatchMinLen
+        cmp     sym, 3 + kMatchMinLen
+        cmovb   t0, sym
+        add     probs, PosSlot * PMULT - (kMatchMinLen SHL (kNumPosSlotBits + PSHIFT))
+        shl     t0, (kNumPosSlotBits + PSHIFT)
+        add     probs, t0_R
+        
+        ; sym = Len
+        ; mov     LOC remainLen, sym
+        mov     len_temp, sym
+    ifdef _LZMA_SIZE_OPT
+        PLOAD   x1, probs + 1 * PMULT
+        mov     sym, 1
+MY_ALIGN_16
+slot_loop:
+        BIT_1   x1, x2
+        mov     x1, x2
+        cmp     sym, 32
+        jb      slot_loop
+        
+    else
+        
+        BIT_0   x1, x2
+        BIT_1   x2, x1
+        BIT_1   x1, x2
+        BIT_1   x2, x1
+        BIT_1   x1, x2
+        
+    endif
+        
+        mov     x1, sym
+        BIT_2   x2, 64-1
+        and     sym, 3
+        mov     probs, LOC probs_Spec
+        cmp     x1, 32 + kEndPosModelIndex / 2
+        jb      short_dist
+        ;  unsigned numDirectBits = (unsigned)(((distance >> 1) - 1));
+        sub     x1, (32 + 1 + kNumAlignBits)
+        ;  distance = (2 | (distance & 1));
+        or      sym, 2
+        PLOAD   x2, probs + 1 * PMULT
+        shl     sym, kNumAlignBits + 1
+        lea     sym2_R, [probs + 2 * PMULT]
+        
+        jmp     direct_norm
+        ; lea     t1, [sym_R + (1 SHL kNumAlignBits)]
+        ; cmp     range, kTopValue
+        ; jb      direct_norm
+        
+; ---------- DIRECT DISTANCE ----------
+MY_ALIGN_32
+direct_loop:
+        shr     range, 1
+        mov     t0, cod
+        sub     cod, range
+        cmovs   cod, t0
+        cmovns  sym, t1
+        
+        comment ~
+        sub     cod, range
+        mov     x2, cod
+        sar     x2, 31
+        lea     sym, dword ptr [r2 + sym_R * 2 + 1]
+        and     x2, range
+        add     cod, x2
+        ~
+        dec     x1
+        je      direct_end
+        add     sym, sym
+direct_norm:
+        lea     t1, [sym_R + (1 SHL kNumAlignBits)]
+        cmp     range, kTopValue
+        jae     near ptr direct_loop
+        ; we align for 32 here with "near ptr" command above
+        NORM_2
+        jmp     direct_loop
+MY_ALIGN_32
+direct_end:
+        ;  prob =  + kAlign;
+        ;  distance <<= kNumAlignBits;
+        REV_0   x2, x1
+        REV_1   x1, x2, 2
+        REV_1   x2, x1, 4
+        REV_2   x1, 8
+decode_dist_end:
+        ; if (distance >= (checkDicSize == 0 ? processedPos: checkDicSize))
+        mov     t1, LOC rep0
+        mov     x1, LOC rep1
+        mov     x2, LOC rep2
+        
+        mov     t0, LOC checkDicSize
+        test    t0, t0
+        cmove   t0, processedPos
+        cmp     sym, t0
+        jae     end_of_payload
+        ; jmp     end_of_payload ; for debug
+        
+        ; rep3 = rep2;
+        ; rep2 = rep1;
+        ; rep1 = rep0;
+        ; rep0 = distance + 1;
+        inc     sym
+        mov     LOC rep0, sym
+        ; mov     sym, LOC remainLen
+        mov     sym, len_temp
+        mov     LOC rep1, t1
+        mov     LOC rep2, x1
+        mov     LOC rep3, x2
+        
+        ; state = (state < kNumStates + kNumLitStates) ? kNumLitStates : kNumLitStates + 3;
+        cmp     state, (kNumStates + kNumLitStates) * PMULT
+        mov     state, kNumLitStates * PMULT
+        mov     t0, (kNumLitStates + 3) * PMULT
+        cmovae  state, t0
+        
+; ---------- COPY MATCH ----------
+copy_match:
+        ; len += kMatchMinLen;
+        ; add     sym, kMatchMinLen
+        ; if ((rem = limit - dicPos) == 0)
+        ; {
+        ;   p->dicPos = dicPos;
+        ;   return SZ_ERROR_DATA;
+        ; }
+        mov     cnt_R, LOC limit
+        sub     cnt_R, dicPos
+        jz      fin_dicPos_LIMIT
+        ; curLen = ((rem < len) ? (unsigned)rem : len);
+        cmp     cnt_R, sym_R
+        ; cmovae  cnt_R, sym_R ; 64-bit
+        cmovae  cnt, sym ; 32-bit
+        mov     dic, LOC dic_Spec
+        mov     x1, LOC rep0
+        mov     t0_R, dicPos
+        add     dicPos, cnt_R
+        ; processedPos += curLen;
+        add     processedPos, cnt
+        ; len -= curLen;
+        sub     sym, cnt
+        mov     LOC remainLen, sym
+        sub     t0_R, dic
+        
+        ; pos = dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0);
+        sub     t0_R, r1
+        jae     @f
+        mov     r1, LOC dicBufSize
+        add     t0_R, r1
+        sub     r1, t0_R
+        cmp     cnt_R, r1
+        ja      copy_match_cross
+@@:
+        ; if (curLen <= dicBufSize - pos)
+; ---------- COPY MATCH FAST ----------
+        ; Byte *dest = dic + dicPos;
+        ; mov     r1, dic
+        ; ptrdiff_t src = (ptrdiff_t)pos - (ptrdiff_t)dicPos;
+        ; sub   t0_R, dicPos
+        ; dicPos += curLen;
+        ; const Byte *lim = dest + curLen;
+        add     t0_R, dic
+        movzx   sym, byte ptr[t0_R]
+        add     t0_R, cnt_R
+        neg     cnt_R
+        ; lea     r1, [dicPos - 1]
+copy_common:
+        dec     dicPos
+        ; cmp   LOC rep0, 1
+        ; je    rep0Label
+        ; t0_R - src_lim
+        ; r1 - dest_lim - 1
+        ; cnt_R - (-cnt)
+        IsMatchBranch_Pre
+        inc     cnt_R
+        jz      copy_end
+MY_ALIGN_16
+@@:
+        mov     byte ptr[cnt_R * 1 + dicPos], sym_L
+        movzx   sym, byte ptr[cnt_R * 1 + t0_R]
+        inc     cnt_R
+        jnz     @b
+copy_end:
+lz_end_match:
+        mov     byte ptr[dicPos], sym_L
+        inc     dicPos
+  
+        ; IsMatchBranch_Pre
+        CheckLimits
+lz_end:
+        IF_BIT_1_NOUP probs_state_R, pbPos_R, IsMatch, IsMatch_label
+; ---------- LITERAL MATCHED ----------
+                
+        LIT_PROBS LOC lpMask
+        
+        ; matchByte = dic[dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0)];
+        mov     x1, LOC rep0
+        ; mov     dic, LOC dic_Spec
+        mov     LOC dicPos_Spec, dicPos
+        
+        ; state -= (state < 10) ? 3 : 6;
+        lea     t0, [state_R - 6 * PMULT]
+        sub     state, 3 * PMULT
+        cmp     state, 7 * PMULT
+        cmovae  state, t0
+        
+        sub     dicPos, dic
+        sub     dicPos, r1
+        jae     @f
+        add     dicPos, LOC dicBufSize
+@@:
+        comment ~
+        xor     t0, t0
+        sub     dicPos, r1
+        cmovb   t0_R, LOC dicBufSize
+        ~
+        
+        movzx   match, byte ptr[dic + dicPos * 1]
+    ifdef _LZMA_SIZE_OPT
+        mov     offs, 256 * PMULT
+        shl     match, (PSHIFT + 1)
+        mov     bit, match
+        mov     sym, 1
+MY_ALIGN_16
+litm_loop:
+        LITM
+        cmp     sym, 256
+        jb      litm_loop
+        sub     sym, 256
+        
+    else
+        
+        LITM_0
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM
+        LITM_2
+        
+    endif
+        
+        mov     probs, LOC probs_Spec
+        IsMatchBranch_Pre
+        ; mov     dic, LOC dic_Spec
+        mov     dicPos, LOC dicPos_Spec
+        mov     byte ptr[dicPos], sym_L
+        inc     dicPos
+        
+        CheckLimits
+lit_matched_end:
+        IF_BIT_1_NOUP probs_state_R, pbPos_R, IsMatch, IsMatch_label
+        ; IsMatchBranch
+        mov     lpMask_reg, LOC lpMask
+        sub     state, 3 * PMULT
+        jmp     lit_start_2
+        
+; ---------- REP 0 LITERAL ----------
+MY_ALIGN_32
+IsRep0Short_label:
+        UPDATE_0 probs_state_R, pbPos_R, IsRep0Long
+        ; dic[dicPos] = dic[dicPos - rep0 + (dicPos < rep0 ? dicBufSize : 0)];
+        mov     dic, LOC dic_Spec
+        mov     t0_R, dicPos
+        mov     probBranch, LOC rep0
+        sub     t0_R, dic
+        
+        sub     probs, RepLenCoder * PMULT
+        
+        ; state = state < kNumLitStates ? 9 : 11;
+        or      state, 1 * PMULT
+        
+        ; the caller doesn't allow (dicPos >= limit) case for REP_SHORT
+        ; so we don't need the following (dicPos == limit) check here:
+        ; cmp     dicPos, LOC limit
+        ; jae     fin_dicPos_LIMIT_REP_SHORT
+        inc     processedPos
+        IsMatchBranch_Pre
+       
+;        xor     sym, sym
+;        sub     t0_R, probBranch_R
+;        cmovb   sym_R, LOC dicBufSize
+;        add     t0_R, sym_R
+        sub     t0_R, probBranch_R
+        jae     @f
+        add     t0_R, LOC dicBufSize
+@@:
+        movzx   sym, byte ptr[dic + t0_R * 1]
+        jmp     lz_end_match
+  
+        
+MY_ALIGN_32
+IsRep_label:
+        UPDATE_1 probs_state_R, 0, IsRep
+        ; The (checkDicSize == 0 && processedPos == 0) case was checked before in LzmaDec.c with kBadRepCode.
+        ; So we don't check it here.
+        
+        ; mov     t0, processedPos
+        ; or      t0, LOC checkDicSize
+        ; jz      fin_ERROR_2
+        ; state = state < kNumLitStates ? 8 : 11;
+        cmp     state, kNumLitStates * PMULT
+        mov     state, 8 * PMULT
+        mov     probBranch, 11 * PMULT
+        cmovae  state, probBranch
+        ; prob = probs + RepLenCoder;
+        add     probs, RepLenCoder * PMULT
+        
+        IF_BIT_1 probs_state_R, 0, IsRepG0, IsRepG0_label
+        IF_BIT_0_NOUP probs_state_R, pbPos_R, IsRep0Long, IsRep0Short_label
+        UPDATE_1 probs_state_R, pbPos_R, IsRep0Long
+        jmp     len_decode
+MY_ALIGN_32
+IsRepG0_label:
+        UPDATE_1 probs_state_R, 0, IsRepG0
+        mov     dist2, LOC rep0
+        mov     dist, LOC rep1
+        mov     LOC rep1, dist2
+        
+        IF_BIT_1 probs_state_R, 0, IsRepG1, IsRepG1_label
+        mov     LOC rep0, dist
+        jmp     len_decode
+        
+; MY_ALIGN_32
+IsRepG1_label:
+        UPDATE_1 probs_state_R, 0, IsRepG1
+        mov     dist2, LOC rep2
+        mov     LOC rep2, dist
+        
+        IF_BIT_1 probs_state_R, 0, IsRepG2, IsRepG2_label
+        mov     LOC rep0, dist2
+        jmp     len_decode
+; MY_ALIGN_32
+IsRepG2_label:
+        UPDATE_1 probs_state_R, 0, IsRepG2
+        mov     dist, LOC rep3
+        mov     LOC rep3, dist2
+        mov     LOC rep0, dist
+        jmp     len_decode
+        
+; ---------- SPEC SHORT DISTANCE ----------
+MY_ALIGN_32
+short_dist:
+        sub     x1, 32 + 1
+        jbe     decode_dist_end
+        or      sym, 2
+        shl     sym, x1_L
+        lea     sym_R, [probs + sym_R * PMULT + SpecPos * PMULT + 1 * PMULT]
+        mov     sym2, PMULT ; step
+MY_ALIGN_32
+spec_loop:
+        REV_1_VAR x2
+        dec     x1
+        jnz     spec_loop
+        mov     probs, LOC probs_Spec
+        sub     sym, sym2
+        sub     sym, SpecPos * PMULT
+        sub     sym_R, probs
+        shr     sym, PSHIFT
+        
+        jmp     decode_dist_end
+; ---------- COPY MATCH CROSS ----------
+copy_match_cross:
+        ; t0_R - src pos
+        ; r1 - len to dicBufSize
+        ; cnt_R - total copy len
+        mov     t1_R, t0_R         ; srcPos
+        mov     t0_R, dic
+        mov     r1, LOC dicBufSize   ;
+        neg     cnt_R
+@@:
+        movzx   sym, byte ptr[t1_R * 1 + t0_R]
+        inc     t1_R
+        mov     byte ptr[cnt_R * 1 + dicPos], sym_L
+        inc     cnt_R
+        cmp     t1_R, r1
+        jne     @b
+        
+        movzx   sym, byte ptr[t0_R]
+        sub     t0_R, cnt_R
+        jmp     copy_common
+; fin_dicPos_LIMIT_REP_SHORT:
+        ; mov     sym, 1
+fin_dicPos_LIMIT:
+        mov     LOC remainLen, sym
+        jmp     fin_OK
+        ; For more strict mode we can stop decoding with error
+        ; mov     sym, 1
+        ; jmp     fin
+fin_ERROR_MATCH_DIST:
+        ; rep3 = rep2;
+        ; rep2 = rep1;
+        ; rep1 = rep0;
+        ; rep0 = distance + 1;
+        
+        add     len_temp, kMatchSpecLen_Error_Data
+        mov     LOC remainLen, len_temp
+        mov     LOC rep0, sym
+        mov     LOC rep1, t1
+        mov     LOC rep2, x1
+        mov     LOC rep3, x2
+        
+        ; state = (state < kNumStates + kNumLitStates) ? kNumLitStates : kNumLitStates + 3;
+        cmp     state, (kNumStates + kNumLitStates) * PMULT
+        mov     state, kNumLitStates * PMULT
+        mov     t0, (kNumLitStates + 3) * PMULT
+        cmovae  state, t0
+        ; jmp     fin_OK
+        mov     sym, 1
+        jmp     fin
+end_of_payload:
+        inc     sym
+        jnz     fin_ERROR_MATCH_DIST
+        mov     LOC remainLen, kMatchSpecLenStart
+        sub     state, kNumStates * PMULT
+fin_OK:
+        xor     sym, sym
+fin:
+        NORM
+        mov     r1, LOC lzmaPtr
+        sub     dicPos, LOC dic_Spec
+        mov     GLOB dicPos_Spec, dicPos
+        mov     GLOB buf_Spec, buf
+        mov     GLOB range_Spec, range
+        mov     GLOB code_Spec, cod
+        shr     state, PSHIFT
+        mov     GLOB state_Spec, state
+        mov     GLOB processedPos_Spec, processedPos
+        RESTORE_VAR(remainLen)
+        RESTORE_VAR(rep0)
+        RESTORE_VAR(rep1)
+        RESTORE_VAR(rep2)
+        RESTORE_VAR(rep3)
+        mov     x0, sym
+        
+        mov     RSP, LOC Old_RSP
+MY_POP_PRESERVED_ABI_REGS
+MY_ENDP
+_TEXT$LZMADECOPT ENDS
+end
diff --git a/Asm/x86/Sha1Opt.asm b/Asm/x86/Sha1Opt.asm
new file mode 100644
index 0000000..3495fd1
--- /dev/null
+++ b/Asm/x86/Sha1Opt.asm
@@ -0,0 +1,263 @@
+; Sha1Opt.asm -- SHA-1 optimized code for SHA-1 x86 hardware instructions
+; 2021-03-10 : Igor Pavlov : Public domain
+include 7zAsm.asm
+MY_ASM_START
+CONST   SEGMENT
+align 16
+Reverse_Endian_Mask db 15,14,13,12, 11,10,9,8, 7,6,5,4, 3,2,1,0
+CONST   ENDS
+; _TEXT$SHA1OPT SEGMENT 'CODE'
+ifndef x64
+    .686
+    .xmm
+endif
+ifdef x64
+        rNum    equ REG_ABI_PARAM_2
+    if (IS_LINUX eq 0)
+        LOCAL_SIZE equ (16 * 2)
+    endif
+else
+        rNum    equ r0
+        LOCAL_SIZE equ (16 * 1)
+endif
+rState equ REG_ABI_PARAM_0
+rData  equ REG_ABI_PARAM_1
+MY_sha1rnds4 macro a1, a2, imm
+        db 0fH, 03aH, 0ccH, (0c0H + a1 * 8 + a2), imm
+endm
+MY_SHA_INSTR macro cmd, a1, a2
+        db 0fH, 038H, cmd, (0c0H + a1 * 8 + a2)
+endm
+cmd_sha1nexte   equ 0c8H
+cmd_sha1msg1    equ 0c9H
+cmd_sha1msg2    equ 0caH
+MY_sha1nexte macro a1, a2
+        MY_SHA_INSTR  cmd_sha1nexte, a1, a2
+endm
+MY_sha1msg1 macro a1, a2
+        MY_SHA_INSTR  cmd_sha1msg1, a1, a2
+endm
+MY_sha1msg2 macro a1, a2
+        MY_SHA_INSTR  cmd_sha1msg2, a1, a2
+endm
+MY_PROLOG macro
+    ifdef x64
+      if (IS_LINUX eq 0)
+        movdqa  [r4 + 8], xmm6
+        movdqa  [r4 + 8 + 16], xmm7
+        sub     r4, LOCAL_SIZE + 8
+        movdqa  [r4     ], xmm8
+        movdqa  [r4 + 16], xmm9
+      endif
+    else ; x86
+      if (IS_CDECL gt 0)
+        mov     rState, [r4 + REG_SIZE * 1]
+        mov     rData,  [r4 + REG_SIZE * 2]
+        mov     rNum,   [r4 + REG_SIZE * 3]
+      else ; fastcall
+        mov     rNum,   [r4 + REG_SIZE * 1]
+      endif
+        push    r5
+        mov     r5, r4
+        and     r4, -16
+        sub     r4, LOCAL_SIZE
+    endif
+endm
+MY_EPILOG macro
+    ifdef x64
+      if (IS_LINUX eq 0)
+        movdqa  xmm8, [r4]
+        movdqa  xmm9, [r4 + 16]
+        add     r4, LOCAL_SIZE + 8
+        movdqa  xmm6, [r4 + 8]
+        movdqa  xmm7, [r4 + 8 + 16]
+      endif
+    else ; x86
+        mov     r4, r5
+        pop     r5
+    endif
+    MY_ENDP
+endm
+e0_N       equ 0
+e1_N       equ 1
+abcd_N     equ 2
+e0_save_N  equ 3
+w_regs     equ 4
+e0      equ @CatStr(xmm, %e0_N)
+e1      equ @CatStr(xmm, %e1_N)
+abcd    equ @CatStr(xmm, %abcd_N)
+e0_save equ @CatStr(xmm, %e0_save_N)
+ifdef x64
+        abcd_save    equ  xmm8
+        mask2        equ  xmm9
+else
+        abcd_save    equ  [r4]
+        mask2        equ  e1
+endif
+LOAD_MASK macro
+        movdqa  mask2, XMMWORD PTR Reverse_Endian_Mask
+endm
+LOAD_W macro k:req
+        movdqu  @CatStr(xmm, %(w_regs + k)), [rData + (16 * (k))]
+        pshufb  @CatStr(xmm, %(w_regs + k)), mask2
+endm
+; pre2 can be 2 or 3 (recommended)
+pre2 equ 3
+pre1 equ (pre2 + 1)
+NUM_ROUNDS4 equ 20
+   
+RND4 macro k
+        movdqa  @CatStr(xmm, %(e0_N + ((k + 1) mod 2))), abcd
+        MY_sha1rnds4 abcd_N, (e0_N + (k mod 2)), k / 5
+        nextM = (w_regs + ((k + 1) mod 4))
+    if (k EQ NUM_ROUNDS4 - 1)
+        nextM = e0_save_N
+    endif
+        
+        MY_sha1nexte (e0_N + ((k + 1) mod 2)), nextM
+        
+    if (k GE (4 - pre2)) AND (k LT (NUM_ROUNDS4 - pre2))
+        pxor @CatStr(xmm, %(w_regs + ((k + pre2) mod 4))), @CatStr(xmm, %(w_regs + ((k + pre2 - 2) mod 4)))
+    endif
+    if (k GE (4 - pre1)) AND (k LT (NUM_ROUNDS4 - pre1))
+        MY_sha1msg1 (w_regs + ((k + pre1) mod 4)), (w_regs + ((k + pre1 - 3) mod 4))
+    endif
+    
+    if (k GE (4 - pre2)) AND (k LT (NUM_ROUNDS4 - pre2))
+        MY_sha1msg2 (w_regs + ((k + pre2) mod 4)), (w_regs + ((k + pre2 - 1) mod 4))
+    endif
+endm
+REVERSE_STATE macro
+                               ; abcd   ; dcba
+                               ; e0     ; 000e
+        pshufd  abcd, abcd, 01bH        ; abcd
+        pshufd    e0,   e0, 01bH        ; e000
+endm
+MY_PROC Sha1_UpdateBlocks_HW, 3
+    MY_PROLOG
+        cmp     rNum, 0
+        je      end_c
+        movdqu   abcd, [rState]               ; dcba
+        movd     e0, dword ptr [rState + 16]  ; 000e
+        REVERSE_STATE
+       
+        ifdef x64
+        LOAD_MASK
+        endif
+    align 16
+    nextBlock:
+        movdqa  abcd_save, abcd
+        movdqa  e0_save, e0
+        
+        ifndef x64
+        LOAD_MASK
+        endif
+        
+        LOAD_W 0
+        LOAD_W 1
+        LOAD_W 2
+        LOAD_W 3
+        paddd   e0, @CatStr(xmm, %(w_regs))
+        k = 0
+        rept NUM_ROUNDS4
+          RND4 k
+          k = k + 1
+        endm
+        paddd   abcd, abcd_save
+        add     rData, 64
+        sub     rNum, 1
+        jnz     nextBlock
+        
+        REVERSE_STATE
+        movdqu  [rState], abcd
+        movd    dword ptr [rState + 16], e0
+       
+  end_c:
+MY_EPILOG
+; _TEXT$SHA1OPT ENDS
+end
diff --git a/Asm/x86/Sha256Opt.asm b/Asm/x86/Sha256Opt.asm
new file mode 100644
index 0000000..5d02c90
--- /dev/null
+++ b/Asm/x86/Sha256Opt.asm
@@ -0,0 +1,263 @@
+; Sha256Opt.asm -- SHA-256 optimized code for SHA-256 x86 hardware instructions
+; 2021-03-10 : Igor Pavlov : Public domain
+include 7zAsm.asm
+MY_ASM_START
+; .data
+; public K
+; we can use external SHA256_K_ARRAY defined in Sha256.c
+; but we must guarantee that SHA256_K_ARRAY is aligned for 16-bytes
+COMMENT @
+ifdef x64
+K_CONST equ SHA256_K_ARRAY
+else
+K_CONST equ _SHA256_K_ARRAY
+endif
+EXTRN   K_CONST:xmmword
+@
+CONST   SEGMENT
+align 16
+Reverse_Endian_Mask db 3,2,1,0, 7,6,5,4, 11,10,9,8, 15,14,13,12
+; COMMENT @
+align 16
+K_CONST \
+DD 0428a2f98H, 071374491H, 0b5c0fbcfH, 0e9b5dba5H
+DD 03956c25bH, 059f111f1H, 0923f82a4H, 0ab1c5ed5H
+DD 0d807aa98H, 012835b01H, 0243185beH, 0550c7dc3H
+DD 072be5d74H, 080deb1feH, 09bdc06a7H, 0c19bf174H
+DD 0e49b69c1H, 0efbe4786H, 00fc19dc6H, 0240ca1ccH
+DD 02de92c6fH, 04a7484aaH, 05cb0a9dcH, 076f988daH
+DD 0983e5152H, 0a831c66dH, 0b00327c8H, 0bf597fc7H
+DD 0c6e00bf3H, 0d5a79147H, 006ca6351H, 014292967H
+DD 027b70a85H, 02e1b2138H, 04d2c6dfcH, 053380d13H
+DD 0650a7354H, 0766a0abbH, 081c2c92eH, 092722c85H
+DD 0a2bfe8a1H, 0a81a664bH, 0c24b8b70H, 0c76c51a3H
+DD 0d192e819H, 0d6990624H, 0f40e3585H, 0106aa070H
+DD 019a4c116H, 01e376c08H, 02748774cH, 034b0bcb5H
+DD 0391c0cb3H, 04ed8aa4aH, 05b9cca4fH, 0682e6ff3H
+DD 0748f82eeH, 078a5636fH, 084c87814H, 08cc70208H
+DD 090befffaH, 0a4506cebH, 0bef9a3f7H, 0c67178f2H
+; @
+CONST   ENDS
+; _TEXT$SHA256OPT SEGMENT 'CODE'
+ifndef x64
+    .686
+    .xmm
+endif
+ifdef x64
+        rNum    equ REG_ABI_PARAM_2
+    if (IS_LINUX eq 0)
+        LOCAL_SIZE equ (16 * 2)
+    endif
+else
+        rNum    equ r0
+        LOCAL_SIZE equ (16 * 1)
+endif
+rState equ REG_ABI_PARAM_0
+rData  equ REG_ABI_PARAM_1
+MY_SHA_INSTR macro cmd, a1, a2
+        db 0fH, 038H, cmd, (0c0H + a1 * 8 + a2)
+endm
+cmd_sha256rnds2 equ 0cbH
+cmd_sha256msg1  equ 0ccH
+cmd_sha256msg2  equ 0cdH
+MY_sha256rnds2 macro a1, a2
+        MY_SHA_INSTR  cmd_sha256rnds2, a1, a2
+endm
+MY_sha256msg1 macro a1, a2
+        MY_SHA_INSTR  cmd_sha256msg1, a1, a2
+endm
+MY_sha256msg2 macro a1, a2
+        MY_SHA_INSTR  cmd_sha256msg2, a1, a2
+endm
+MY_PROLOG macro
+    ifdef x64
+      if (IS_LINUX eq 0)
+        movdqa  [r4 + 8], xmm6
+        movdqa  [r4 + 8 + 16], xmm7
+        sub     r4, LOCAL_SIZE + 8
+        movdqa  [r4     ], xmm8
+        movdqa  [r4 + 16], xmm9
+      endif
+    else ; x86
+      if (IS_CDECL gt 0)
+        mov     rState, [r4 + REG_SIZE * 1]
+        mov     rData,  [r4 + REG_SIZE * 2]
+        mov     rNum,   [r4 + REG_SIZE * 3]
+      else ; fastcall
+        mov     rNum,   [r4 + REG_SIZE * 1]
+      endif
+        push    r5
+        mov     r5, r4
+        and     r4, -16
+        sub     r4, LOCAL_SIZE
+    endif
+endm
+MY_EPILOG macro
+    ifdef x64
+      if (IS_LINUX eq 0)
+        movdqa  xmm8, [r4]
+        movdqa  xmm9, [r4 + 16]
+        add     r4, LOCAL_SIZE + 8
+        movdqa  xmm6, [r4 + 8]
+        movdqa  xmm7, [r4 + 8 + 16]
+      endif
+    else ; x86
+        mov     r4, r5
+        pop     r5
+    endif
+    MY_ENDP
+endm
+msg        equ xmm0
+tmp        equ xmm0
+state0_N   equ 2
+state1_N   equ 3
+w_regs     equ 4
+state1_save equ xmm1
+state0  equ @CatStr(xmm, %state0_N)
+state1  equ @CatStr(xmm, %state1_N)
+ifdef x64
+        state0_save  equ  xmm8
+        mask2        equ  xmm9
+else
+        state0_save  equ  [r4]
+        mask2        equ  xmm0
+endif
+LOAD_MASK macro
+        movdqa  mask2, XMMWORD PTR Reverse_Endian_Mask
+endm
+LOAD_W macro k:req
+        movdqu  @CatStr(xmm, %(w_regs + k)), [rData + (16 * (k))]
+        pshufb  @CatStr(xmm, %(w_regs + k)), mask2
+endm
+; pre1 <= 4 && pre2 >= 1 && pre1 > pre2 && (pre1 - pre2) <= 1
+pre1 equ 3
+pre2 equ 2
+   
+RND4 macro k
+        movdqa  msg, xmmword ptr [K_CONST + (k) * 16]
+        paddd   msg, @CatStr(xmm, %(w_regs + ((k + 0) mod 4)))
+        MY_sha256rnds2 state0_N, state1_N
+        pshufd   msg, msg, 0eH
+        
+    if (k GE (4 - pre1)) AND (k LT (16 - pre1))
+        ; w4[0] = msg1(w4[-4], w4[-3])
+        MY_sha256msg1 (w_regs + ((k + pre1) mod 4)), (w_regs + ((k + pre1 - 3) mod 4))
+    endif
+        
+        MY_sha256rnds2 state1_N, state0_N
+    if (k GE (4 - pre2)) AND (k LT (16 - pre2))
+        movdqa  tmp, @CatStr(xmm, %(w_regs + ((k + pre2 - 1) mod 4)))
+        palignr tmp, @CatStr(xmm, %(w_regs + ((k + pre2 - 2) mod 4))), 4
+        paddd   @CatStr(xmm, %(w_regs + ((k + pre2) mod 4))), tmp
+        ; w4[0] = msg2(w4[0], w4[-1])
+        MY_sha256msg2 %(w_regs + ((k + pre2) mod 4)), %(w_regs + ((k + pre2 - 1) mod 4))
+    endif
+endm
+REVERSE_STATE macro
+                               ; state0 ; dcba
+                               ; state1 ; hgfe
+        pshufd      tmp, state0, 01bH   ; abcd
+        pshufd   state0, state1, 01bH   ; efgh
+        movdqa   state1, state0         ; efgh
+        punpcklqdq  state0, tmp         ; cdgh
+        punpckhqdq  state1, tmp         ; abef
+endm
+MY_PROC Sha256_UpdateBlocks_HW, 3
+    MY_PROLOG
+        cmp     rNum, 0
+        je      end_c
+        movdqu   state0, [rState]       ; dcba
+        movdqu   state1, [rState + 16]  ; hgfe
+        REVERSE_STATE
+       
+        ifdef x64
+        LOAD_MASK
+        endif
+    align 16
+    nextBlock:
+        movdqa  state0_save, state0
+        movdqa  state1_save, state1
+        
+        ifndef x64
+        LOAD_MASK
+        endif
+        
+        LOAD_W 0
+        LOAD_W 1
+        LOAD_W 2
+        LOAD_W 3
+        
+        k = 0
+        rept 16
+          RND4 k
+          k = k + 1
+        endm
+        paddd   state0, state0_save
+        paddd   state1, state1_save
+        add     rData, 64
+        sub     rNum, 1
+        jnz     nextBlock
+        
+        REVERSE_STATE
+        movdqu  [rState], state0
+        movdqu  [rState + 16], state1
+       
+  end_c:
+MY_EPILOG
+; _TEXT$SHA256OPT ENDS
+end
diff --git a/Asm/x86/XzCrc64Opt.asm b/Asm/x86/XzCrc64Opt.asm
new file mode 100644
index 0000000..ad22cc2
--- /dev/null
+++ b/Asm/x86/XzCrc64Opt.asm
@@ -0,0 +1,239 @@
+; XzCrc64Opt.asm -- CRC64 calculation : optimized version
+; 2021-02-06 : Igor Pavlov : Public domain
+include 7zAsm.asm
+MY_ASM_START
+ifdef x64
+rD      equ  r9
+rN      equ  r10
+rT      equ  r5
+num_VAR equ  r8
+SRCDAT4 equ  dword ptr [rD + rN * 1]
+    
+CRC_XOR macro dest:req, src:req, t:req
+    xor     dest, QWORD PTR [rT + src * 8 + 0800h * t]
+endm
+CRC1b macro
+    movzx   x6, BYTE PTR [rD]
+    inc     rD
+    movzx   x3, x0_L
+    xor     x6, x3
+    shr     r0, 8
+    CRC_XOR r0, r6, 0
+    dec     rN
+endm
+MY_PROLOG macro crc_end:req
+  ifdef ABI_LINUX
+    MY_PUSH_2_REGS
+  else
+    MY_PUSH_4_REGS
+  endif
+    mov     r0, REG_ABI_PARAM_0
+    mov     rN, REG_ABI_PARAM_2
+    mov     rT, REG_ABI_PARAM_3
+    mov     rD, REG_ABI_PARAM_1
+    test    rN, rN
+    jz      crc_end
+  @@:
+    test    rD, 3
+    jz      @F
+    CRC1b
+    jnz     @B
+  @@:
+    cmp     rN, 8
+    jb      crc_end
+    add     rN, rD
+    mov     num_VAR, rN
+    sub     rN, 4
+    and     rN, NOT 3
+    sub     rD, rN
+    mov     x1, SRCDAT4
+    xor     r0, r1
+    add     rN, 4
+endm
+MY_EPILOG macro crc_end:req
+    sub     rN, 4
+    mov     x1, SRCDAT4
+    xor     r0, r1
+    mov     rD, rN
+    mov     rN, num_VAR
+    sub     rN, rD
+  crc_end:
+    test    rN, rN
+    jz      @F
+    CRC1b
+    jmp     crc_end
+  @@:
+  ifdef ABI_LINUX
+    MY_POP_2_REGS
+  else
+    MY_POP_4_REGS
+  endif
+endm
+MY_PROC XzCrc64UpdateT4, 4
+    MY_PROLOG crc_end_4
+    align 16
+  main_loop_4:
+    mov     x1, SRCDAT4
+    movzx   x2, x0_L
+    movzx   x3, x0_H
+    shr     r0, 16
+    movzx   x6, x0_L
+    movzx   x7, x0_H
+    shr     r0, 16
+    CRC_XOR r1, r2, 3
+    CRC_XOR r0, r3, 2
+    CRC_XOR r1, r6, 1
+    CRC_XOR r0, r7, 0
+    xor     r0, r1
+    add     rD, 4
+    jnz     main_loop_4
+    MY_EPILOG crc_end_4
+MY_ENDP
+else
+; x86 (32-bit)
+rD      equ  r1
+rN      equ  r7
+rT      equ  r5
+crc_OFFS  equ  (REG_SIZE * 5)
+if (IS_CDECL gt 0) or (IS_LINUX gt 0)
+    ; cdecl or (GNU fastcall) stack:
+    ;   (UInt32 *) table
+    ;   size_t     size
+    ;   void *     data
+    ;   (UInt64)   crc
+    ;   ret-ip <-(r4)
+    data_OFFS   equ  (8 + crc_OFFS)
+    size_OFFS   equ  (REG_SIZE + data_OFFS)
+    table_OFFS  equ  (REG_SIZE + size_OFFS)
+    num_VAR     equ  [r4 + size_OFFS]
+    table_VAR   equ  [r4 + table_OFFS]
+else
+    ; Windows fastcall:
+    ;   r1 = data, r2 = size
+    ; stack:
+    ;   (UInt32 *) table
+    ;   (UInt64)   crc
+    ;   ret-ip <-(r4)
+    table_OFFS  equ  (8 + crc_OFFS)
+    table_VAR   equ  [r4 + table_OFFS]
+    num_VAR     equ  table_VAR
+endif
+SRCDAT4 equ  dword ptr [rD + rN * 1]
+CRC macro op0:req, op1:req, dest0:req, dest1:req, src:req, t:req
+    op0     dest0, DWORD PTR [rT + src * 8 + 0800h * t]
+    op1     dest1, DWORD PTR [rT + src * 8 + 0800h * t + 4]
+endm
+CRC_XOR macro dest0:req, dest1:req, src:req, t:req
+    CRC xor, xor, dest0, dest1, src, t
+endm
+CRC1b macro
+    movzx   x6, BYTE PTR [rD]
+    inc     rD
+    movzx   x3, x0_L
+    xor     x6, x3
+    shrd    r0, r2, 8
+    shr     r2, 8
+    CRC_XOR r0, r2, r6, 0
+    dec     rN
+endm
+MY_PROLOG macro crc_end:req
+    MY_PUSH_4_REGS
+  if (IS_CDECL gt 0) or (IS_LINUX gt 0)
+    proc_numParams = proc_numParams + 2 ; for ABI_LINUX
+    mov     rN, [r4 + size_OFFS]
+    mov     rD, [r4 + data_OFFS]
+  else
+    mov     rN, r2
+  endif
+    mov     x0, [r4 + crc_OFFS]
+    mov     x2, [r4 + crc_OFFS + 4]
+    mov     rT, table_VAR
+    test    rN, rN
+    jz      crc_end
+  @@:
+    test    rD, 3
+    jz      @F
+    CRC1b
+    jnz     @B
+  @@:
+    cmp     rN, 8
+    jb      crc_end
+    add     rN, rD
+    mov     num_VAR, rN
+    sub     rN, 4
+    and     rN, NOT 3
+    sub     rD, rN
+    xor     r0, SRCDAT4
+    add     rN, 4
+endm
+MY_EPILOG macro crc_end:req
+    sub     rN, 4
+    xor     r0, SRCDAT4
+    mov     rD, rN
+    mov     rN, num_VAR
+    sub     rN, rD
+  crc_end:
+    test    rN, rN
+    jz      @F
+    CRC1b
+    jmp     crc_end
+  @@:
+    MY_POP_4_REGS
+endm
+MY_PROC XzCrc64UpdateT4, 5
+    MY_PROLOG crc_end_4
+    movzx   x6, x0_L
+    align 16
+  main_loop_4:
+    mov     r3, SRCDAT4
+    xor     r3, r2
+    CRC xor, mov, r3, r2, r6, 3
+    movzx   x6, x0_H
+    shr     r0, 16
+    CRC_XOR r3, r2, r6, 2
+    movzx   x6, x0_L
+    movzx   x0, x0_H
+    CRC_XOR r3, r2, r6, 1
+    CRC_XOR r3, r2, r0, 0
+    movzx   x6, x3_L
+    mov     r0, r3
+    add     rD, 4
+    jnz     main_loop_4
+    MY_EPILOG crc_end_4
+MY_ENDP
+endif ; ! x64
+end