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;
; jcphuff-sse2.asm - prepare data for progressive Huffman encoding
; (64-bit SSE2)
;
; Copyright (C) 2016, 2018, Matthieu Darbois
;
; Based on the x86 SIMD extension for IJG JPEG library
; Copyright (C) 1999-2006, MIYASAKA Masaru.
; For conditions of distribution and use, see copyright notice in jsimdext.inc
;
; This file should be assembled with NASM (Netwide Assembler),
; can *not* be assembled with Microsoft's MASM or any compatible
; assembler (including Borland's Turbo Assembler).
; NASM is available from http://nasm.sourceforge.net/ or
; http://sourceforge.net/project/showfiles.php?group_id=6208
;
; This file contains an SSE2 implementation of data preparation for progressive
; Huffman encoding. See jcphuff.c for more details.
;
; [TAB8]
%include "jsimdext.inc"
; --------------------------------------------------------------------------
SECTION SEG_TEXT
BITS 64
; --------------------------------------------------------------------------
; Macros to load data for jsimd_encode_mcu_AC_first_prepare_sse2() and
; jsimd_encode_mcu_AC_refine_prepare_sse2()
%macro LOAD16 0
pxor N0, N0
pxor N1, N1
mov T0d, INT [LUT + 0*SIZEOF_INT]
mov T1d, INT [LUT + 8*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 0
pinsrw X1, word [BLOCK + T1 * 2], 0
mov T0d, INT [LUT + 1*SIZEOF_INT]
mov T1d, INT [LUT + 9*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 1
pinsrw X1, word [BLOCK + T1 * 2], 1
mov T0d, INT [LUT + 2*SIZEOF_INT]
mov T1d, INT [LUT + 10*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 2
pinsrw X1, word [BLOCK + T1 * 2], 2
mov T0d, INT [LUT + 3*SIZEOF_INT]
mov T1d, INT [LUT + 11*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 3
pinsrw X1, word [BLOCK + T1 * 2], 3
mov T0d, INT [LUT + 4*SIZEOF_INT]
mov T1d, INT [LUT + 12*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 4
pinsrw X1, word [BLOCK + T1 * 2], 4
mov T0d, INT [LUT + 5*SIZEOF_INT]
mov T1d, INT [LUT + 13*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 5
pinsrw X1, word [BLOCK + T1 * 2], 5
mov T0d, INT [LUT + 6*SIZEOF_INT]
mov T1d, INT [LUT + 14*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 6
pinsrw X1, word [BLOCK + T1 * 2], 6
mov T0d, INT [LUT + 7*SIZEOF_INT]
mov T1d, INT [LUT + 15*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 7
pinsrw X1, word [BLOCK + T1 * 2], 7
%endmacro
%macro LOAD15 0
pxor N0, N0
pxor N1, N1
pxor X1, X1
mov T0d, INT [LUT + 0*SIZEOF_INT]
mov T1d, INT [LUT + 8*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 0
pinsrw X1, word [BLOCK + T1 * 2], 0
mov T0d, INT [LUT + 1*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 1
mov T0d, INT [LUT + 2*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 2
mov T0d, INT [LUT + 3*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 3
mov T0d, INT [LUT + 4*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 4
mov T0d, INT [LUT + 5*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 5
mov T0d, INT [LUT + 6*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 6
mov T0d, INT [LUT + 7*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 7
cmp LENEND, 2
jl %%.ELOAD15
mov T1d, INT [LUT + 9*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 1
cmp LENEND, 3
jl %%.ELOAD15
mov T1d, INT [LUT + 10*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 2
cmp LENEND, 4
jl %%.ELOAD15
mov T1d, INT [LUT + 11*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 3
cmp LENEND, 5
jl %%.ELOAD15
mov T1d, INT [LUT + 12*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 4
cmp LENEND, 6
jl %%.ELOAD15
mov T1d, INT [LUT + 13*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 5
cmp LENEND, 7
jl %%.ELOAD15
mov T1d, INT [LUT + 14*SIZEOF_INT]
pinsrw X1, word [BLOCK + T1 * 2], 6
%%.ELOAD15:
%endmacro
%macro LOAD8 0
pxor N0, N0
mov T0d, INT [LUT + 0*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 0
mov T0d, INT [LUT + 1*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 1
mov T0d, INT [LUT + 2*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 2
mov T0d, INT [LUT + 3*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 3
mov T0d, INT [LUT + 4*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 4
mov T0d, INT [LUT + 5*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 5
mov T0d, INT [LUT + 6*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 6
mov T0d, INT [LUT + 7*SIZEOF_INT]
pinsrw X0, word [BLOCK + T0 * 2], 7
%endmacro
%macro LOAD7 0
pxor N0, N0
pxor X0, X0
mov T1d, INT [LUT + 0*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 0
cmp LENEND, 2
jl %%.ELOAD7
mov T1d, INT [LUT + 1*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 1
cmp LENEND, 3
jl %%.ELOAD7
mov T1d, INT [LUT + 2*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 2
cmp LENEND, 4
jl %%.ELOAD7
mov T1d, INT [LUT + 3*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 3
cmp LENEND, 5
jl %%.ELOAD7
mov T1d, INT [LUT + 4*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 4
cmp LENEND, 6
jl %%.ELOAD7
mov T1d, INT [LUT + 5*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 5
cmp LENEND, 7
jl %%.ELOAD7
mov T1d, INT [LUT + 6*SIZEOF_INT]
pinsrw X0, word [BLOCK + T1 * 2], 6
%%.ELOAD7:
%endmacro
%macro REDUCE0 0
movdqa xmm0, XMMWORD [VALUES + ( 0*2)]
movdqa xmm1, XMMWORD [VALUES + ( 8*2)]
movdqa xmm2, XMMWORD [VALUES + (16*2)]
movdqa xmm3, XMMWORD [VALUES + (24*2)]
movdqa xmm4, XMMWORD [VALUES + (32*2)]
movdqa xmm5, XMMWORD [VALUES + (40*2)]
movdqa xmm6, XMMWORD [VALUES + (48*2)]
movdqa xmm7, XMMWORD [VALUES + (56*2)]
pcmpeqw xmm0, ZERO
pcmpeqw xmm1, ZERO
pcmpeqw xmm2, ZERO
pcmpeqw xmm3, ZERO
pcmpeqw xmm4, ZERO
pcmpeqw xmm5, ZERO
pcmpeqw xmm6, ZERO
pcmpeqw xmm7, ZERO
packsswb xmm0, xmm1
packsswb xmm2, xmm3
packsswb xmm4, xmm5
packsswb xmm6, xmm7
pmovmskb eax, xmm0
pmovmskb ecx, xmm2
pmovmskb edx, xmm4
pmovmskb esi, xmm6
shl rcx, 16
shl rdx, 32
shl rsi, 48
or rax, rcx
or rdx, rsi
or rax, rdx
not rax
mov MMWORD [r15], rax
%endmacro
;
; Prepare data for jsimd_encode_mcu_AC_first().
;
; GLOBAL(void)
; jsimd_encode_mcu_AC_first_prepare_sse2(const JCOEF *block,
; const int *jpeg_natural_order_start,
; int Sl, int Al, JCOEF *values,
; size_t *zerobits)
;
; r10 = const JCOEF *block
; r11 = const int *jpeg_natural_order_start
; r12 = int Sl
; r13 = int Al
; r14 = JCOEF *values
; r15 = size_t *zerobits
%define ZERO xmm9
%define X0 xmm0
%define X1 xmm1
%define N0 xmm2
%define N1 xmm3
%define AL xmm4
%define K eax
%define LUT r11
%define T0 rcx
%define T0d ecx
%define T1 rdx
%define T1d edx
%define BLOCK r10
%define VALUES r14
%define LEN r12d
%define LENEND r13d
align 32
GLOBAL_FUNCTION(jsimd_encode_mcu_AC_first_prepare_sse2)
EXTN(jsimd_encode_mcu_AC_first_prepare_sse2):
push rbp
mov rax, rsp ; rax = original rbp
sub rsp, byte 4
and rsp, byte (-SIZEOF_XMMWORD) ; align to 128 bits
mov [rsp], rax
mov rbp, rsp ; rbp = aligned rbp
lea rsp, [rbp - 16]
collect_args 6
movdqa XMMWORD [rbp - 16], ZERO
movd AL, r13d
pxor ZERO, ZERO
mov K, LEN
mov LENEND, LEN
and K, -16
and LENEND, 7
shr K, 4
jz .ELOOP16
.BLOOP16:
LOAD16
pcmpgtw N0, X0
pcmpgtw N1, X1
paddw X0, N0
paddw X1, N1
pxor X0, N0
pxor X1, N1
psrlw X0, AL
psrlw X1, AL
pxor N0, X0
pxor N1, X1
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (8) * 2], X1
movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
movdqa XMMWORD [VALUES + (8 + DCTSIZE2) * 2], N1
add VALUES, 16*2
add LUT, 16*SIZEOF_INT
dec K
jnz .BLOOP16
.ELOOP16:
test LEN, 8
jz .TRY7
test LEN, 7
jz .TRY8
LOAD15
pcmpgtw N0, X0
pcmpgtw N1, X1
paddw X0, N0
paddw X1, N1
pxor X0, N0
pxor X1, N1
psrlw X0, AL
psrlw X1, AL
pxor N0, X0
pxor N1, X1
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (8) * 2], X1
movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
movdqa XMMWORD [VALUES + (8 + DCTSIZE2) * 2], N1
add VALUES, 16*2
jmp .PADDING
.TRY8:
LOAD8
pcmpgtw N0, X0
paddw X0, N0
pxor X0, N0
psrlw X0, AL
pxor N0, X0
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
add VALUES, 8*2
jmp .PADDING
.TRY7:
LOAD7
pcmpgtw N0, X0
paddw X0, N0
pxor X0, N0
psrlw X0, AL
pxor N0, X0
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (0 + DCTSIZE2) * 2], N0
add VALUES, 8*2
.PADDING:
mov K, LEN
add K, 7
and K, -8
shr K, 3
sub K, DCTSIZE2/8
jz .EPADDING
align 16
.ZEROLOOP:
movdqa XMMWORD [VALUES + 0], ZERO
add VALUES, 8*2
inc K
jnz .ZEROLOOP
.EPADDING:
sub VALUES, DCTSIZE2*2
REDUCE0
movdqa ZERO, XMMWORD [rbp - 16]
uncollect_args 6
mov rsp, rbp ; rsp <- aligned rbp
pop rsp ; rsp <- original rbp
pop rbp
ret
%undef ZERO
%undef X0
%undef X1
%undef N0
%undef N1
%undef AL
%undef K
%undef LUT
%undef T0
%undef T0d
%undef T1
%undef T1d
%undef BLOCK
%undef VALUES
%undef LEN
%undef LENEND
;
; Prepare data for jsimd_encode_mcu_AC_refine().
;
; GLOBAL(int)
; jsimd_encode_mcu_AC_refine_prepare_sse2(const JCOEF *block,
; const int *jpeg_natural_order_start,
; int Sl, int Al, JCOEF *absvalues,
; size_t *bits)
;
; r10 = const JCOEF *block
; r11 = const int *jpeg_natural_order_start
; r12 = int Sl
; r13 = int Al
; r14 = JCOEF *values
; r15 = size_t *bits
%define ZERO xmm9
%define ONE xmm5
%define X0 xmm0
%define X1 xmm1
%define N0 xmm2
%define N1 xmm3
%define AL xmm4
%define K eax
%define KK r9d
%define EOB r8d
%define SIGN rdi
%define LUT r11
%define T0 rcx
%define T0d ecx
%define T1 rdx
%define T1d edx
%define BLOCK r10
%define VALUES r14
%define LEN r12d
%define LENEND r13d
align 32
GLOBAL_FUNCTION(jsimd_encode_mcu_AC_refine_prepare_sse2)
EXTN(jsimd_encode_mcu_AC_refine_prepare_sse2):
push rbp
mov rax, rsp ; rax = original rbp
sub rsp, byte 4
and rsp, byte (-SIZEOF_XMMWORD) ; align to 128 bits
mov [rsp], rax
mov rbp, rsp ; rbp = aligned rbp
lea rsp, [rbp - 16]
collect_args 6
movdqa XMMWORD [rbp - 16], ZERO
xor SIGN, SIGN
xor EOB, EOB
xor KK, KK
movd AL, r13d
pxor ZERO, ZERO
pcmpeqw ONE, ONE
psrlw ONE, 15
mov K, LEN
mov LENEND, LEN
and K, -16
and LENEND, 7
shr K, 4
jz .ELOOPR16
.BLOOPR16:
LOAD16
pcmpgtw N0, X0
pcmpgtw N1, X1
paddw X0, N0
paddw X1, N1
pxor X0, N0
pxor X1, N1
psrlw X0, AL
psrlw X1, AL
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (8) * 2], X1
pcmpeqw X0, ONE
pcmpeqw X1, ONE
packsswb N0, N1
packsswb X0, X1
pmovmskb T0d, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
pmovmskb T1d, X0 ; idx = _mm_movemask_epi8(x1);
shr SIGN, 16 ; make room for sizebits
shl T0, 48
or SIGN, T0
bsr T1d, T1d ; idx = 16 - (__builtin_clz(idx)>>1);
jz .CONTINUER16 ; if (idx) {
mov EOB, KK
add EOB, T1d ; EOB = k + idx;
.CONTINUER16:
add VALUES, 16*2
add LUT, 16*SIZEOF_INT
add KK, 16
dec K
jnz .BLOOPR16
.ELOOPR16:
test LEN, 8
jz .TRYR7
test LEN, 7
jz .TRYR8
LOAD15
pcmpgtw N0, X0
pcmpgtw N1, X1
paddw X0, N0
paddw X1, N1
pxor X0, N0
pxor X1, N1
psrlw X0, AL
psrlw X1, AL
movdqa XMMWORD [VALUES + (0) * 2], X0
movdqa XMMWORD [VALUES + (8) * 2], X1
pcmpeqw X0, ONE
pcmpeqw X1, ONE
packsswb N0, N1
packsswb X0, X1
pmovmskb T0d, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
pmovmskb T1d, X0 ; idx = _mm_movemask_epi8(x1);
shr SIGN, 16 ; make room for sizebits
shl T0, 48
or SIGN, T0
bsr T1d, T1d ; idx = 16 - (__builtin_clz(idx)>>1);
jz .CONTINUER15 ; if (idx) {
mov EOB, KK
add EOB, T1d ; EOB = k + idx;
.CONTINUER15:
add VALUES, 16*2
jmp .PADDINGR
.TRYR8:
LOAD8
pcmpgtw N0, X0
paddw X0, N0
pxor X0, N0
psrlw X0, AL
movdqa XMMWORD [VALUES + (0) * 2], X0
pcmpeqw X0, ONE
packsswb N0, ZERO
packsswb X0, ZERO
pmovmskb T0d, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
pmovmskb T1d, X0 ; idx = _mm_movemask_epi8(x1);
shr SIGN, 8 ; make room for sizebits
shl T0, 56
or SIGN, T0
bsr T1d, T1d ; idx = 16 - (__builtin_clz(idx)>>1);
jz .CONTINUER8 ; if (idx) {
mov EOB, KK
add EOB, T1d ; EOB = k + idx;
.CONTINUER8:
add VALUES, 8*2
jmp .PADDINGR
.TRYR7:
LOAD7
pcmpgtw N0, X0
paddw X0, N0
pxor X0, N0
psrlw X0, AL
movdqa XMMWORD [VALUES + (0) * 2], X0
pcmpeqw X0, ONE
packsswb N0, ZERO
packsswb X0, ZERO
pmovmskb T0d, N0 ; lsignbits.val16u[k>>4] = _mm_movemask_epi8(neg);
pmovmskb T1d, X0 ; idx = _mm_movemask_epi8(x1);
shr SIGN, 8 ; make room for sizebits
shl T0, 56
or SIGN, T0
bsr T1d, T1d ; idx = 16 - (__builtin_clz(idx)>>1);
jz .CONTINUER7 ; if (idx) {
mov EOB, KK
add EOB, T1d ; EOB = k + idx;
.CONTINUER7:
add VALUES, 8*2
.PADDINGR:
mov K, LEN
add K, 7
and K, -8
shr K, 3
sub K, DCTSIZE2/8
jz .EPADDINGR
align 16
.ZEROLOOPR:
movdqa XMMWORD [VALUES + 0], ZERO
shr SIGN, 8
add VALUES, 8*2
inc K
jnz .ZEROLOOPR
.EPADDINGR:
not SIGN
sub VALUES, DCTSIZE2*2
mov MMWORD [r15+SIZEOF_MMWORD], SIGN
REDUCE0
mov eax, EOB
movdqa ZERO, XMMWORD [rbp - 16]
uncollect_args 6
mov rsp, rbp ; rsp <- aligned rbp
pop rsp ; rsp <- original rbp
pop rbp
ret
%undef ZERO
%undef ONE
%undef X0
%undef X1
%undef N0
%undef N1
%undef AL
%undef K
%undef KK
%undef EOB
%undef SIGN
%undef LUT
%undef T0
%undef T0d
%undef T1
%undef T1d
%undef BLOCK
%undef VALUES
%undef LEN
%undef LENEND
; For some reason, the OS X linker does not honor the request to align the
; segment unless we do this.
align 32