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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:22:09 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-07 09:22:09 +0000
commit43a97878ce14b72f0981164f87f2e35e14151312 (patch)
tree620249daf56c0258faa40cbdcf9cfba06de2a846 /media/libjpeg/simd/i386/jchuff-sse2.asm
parentInitial commit. (diff)
downloadfirefox-upstream.tar.xz
firefox-upstream.zip
Adding upstream version 110.0.1.upstream/110.0.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'media/libjpeg/simd/i386/jchuff-sse2.asm')
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1 files changed, 761 insertions, 0 deletions
diff --git a/media/libjpeg/simd/i386/jchuff-sse2.asm b/media/libjpeg/simd/i386/jchuff-sse2.asm
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+;
+; jchuff-sse2.asm - Huffman entropy encoding (SSE2)
+;
+; Copyright (C) 2009-2011, 2014-2017, 2019, D. R. Commander.
+; Copyright (C) 2015, Matthieu Darbois.
+; Copyright (C) 2018, Matthias Räncker.
+;
+; 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 for Huffman coding of one block.
+; The following code is based on jchuff.c; see jchuff.c for more details.
+
+%include "jsimdext.inc"
+
+struc working_state
+.next_output_byte: resp 1 ; => next byte to write in buffer
+.free_in_buffer: resp 1 ; # of byte spaces remaining in buffer
+.cur.put_buffer.simd resq 1 ; current bit accumulation buffer
+.cur.free_bits resd 1 ; # of bits available in it
+.cur.last_dc_val resd 4 ; last DC coef for each component
+.cinfo: resp 1 ; dump_buffer needs access to this
+endstruc
+
+struc c_derived_tbl
+.ehufco: resd 256 ; code for each symbol
+.ehufsi: resb 256 ; length of code for each symbol
+; If no code has been allocated for a symbol S, ehufsi[S] contains 0
+endstruc
+
+; --------------------------------------------------------------------------
+ SECTION SEG_CONST
+
+ GLOBAL_DATA(jconst_huff_encode_one_block)
+
+EXTN(jconst_huff_encode_one_block):
+
+ alignz 32
+
+jpeg_mask_bits dq 0x0000, 0x0001, 0x0003, 0x0007
+ dq 0x000f, 0x001f, 0x003f, 0x007f
+ dq 0x00ff, 0x01ff, 0x03ff, 0x07ff
+ dq 0x0fff, 0x1fff, 0x3fff, 0x7fff
+
+times 1 << 14 db 15
+times 1 << 13 db 14
+times 1 << 12 db 13
+times 1 << 11 db 12
+times 1 << 10 db 11
+times 1 << 9 db 10
+times 1 << 8 db 9
+times 1 << 7 db 8
+times 1 << 6 db 7
+times 1 << 5 db 6
+times 1 << 4 db 5
+times 1 << 3 db 4
+times 1 << 2 db 3
+times 1 << 1 db 2
+times 1 << 0 db 1
+times 1 db 0
+jpeg_nbits_table:
+times 1 db 0
+times 1 << 0 db 1
+times 1 << 1 db 2
+times 1 << 2 db 3
+times 1 << 3 db 4
+times 1 << 4 db 5
+times 1 << 5 db 6
+times 1 << 6 db 7
+times 1 << 7 db 8
+times 1 << 8 db 9
+times 1 << 9 db 10
+times 1 << 10 db 11
+times 1 << 11 db 12
+times 1 << 12 db 13
+times 1 << 13 db 14
+times 1 << 14 db 15
+
+ alignz 32
+
+%ifdef PIC
+%define NBITS(x) nbits_base + x
+%else
+%define NBITS(x) jpeg_nbits_table + x
+%endif
+%define MASK_BITS(x) NBITS((x) * 8) + (jpeg_mask_bits - jpeg_nbits_table)
+
+; --------------------------------------------------------------------------
+ SECTION SEG_TEXT
+ BITS 32
+
+%define mm_put_buffer mm0
+%define mm_all_0xff mm1
+%define mm_temp mm2
+%define mm_nbits mm3
+%define mm_code_bits mm3
+%define mm_code mm4
+%define mm_overflow_bits mm5
+%define mm_save_nbits mm6
+
+; Shorthand used to describe SIMD operations:
+; wN: xmmN treated as eight signed 16-bit values
+; wN[i]: perform the same operation on all eight signed 16-bit values, i=0..7
+; bN: xmmN treated as 16 unsigned 8-bit values, or
+; mmN treated as eight unsigned 8-bit values
+; bN[i]: perform the same operation on all unsigned 8-bit values,
+; i=0..15 (SSE register) or i=0..7 (MMX register)
+; Contents of SIMD registers are shown in memory order.
+
+; Fill the bit buffer to capacity with the leading bits from code, then output
+; the bit buffer and put the remaining bits from code into the bit buffer.
+;
+; Usage:
+; code - contains the bits to shift into the bit buffer (LSB-aligned)
+; %1 - temp register
+; %2 - low byte of temp register
+; %3 - second byte of temp register
+; %4-%8 (optional) - extra instructions to execute before the macro completes
+; %9 - the label to which to jump when the macro completes
+;
+; Upon completion, free_bits will be set to the number of remaining bits from
+; code, and put_buffer will contain those remaining bits. temp and code will
+; be clobbered.
+;
+; This macro encodes any 0xFF bytes as 0xFF 0x00, as does the EMIT_BYTE()
+; macro in jchuff.c.
+
+%macro EMIT_QWORD 9
+%define %%temp %1
+%define %%tempb %2
+%define %%temph %3
+ add nbits, free_bits ; nbits += free_bits;
+ neg free_bits ; free_bits = -free_bits;
+ movq mm_temp, mm_code ; temp = code;
+ movd mm_nbits, nbits ; nbits --> MMX register
+ movd mm_overflow_bits, free_bits ; overflow_bits (temp register) = free_bits;
+ neg free_bits ; free_bits = -free_bits;
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ psrlq mm_temp, mm_overflow_bits ; temp >>= overflow_bits;
+ add free_bits, 64 ; free_bits += 64;
+ por mm_temp, mm_put_buffer ; temp |= put_buffer;
+%ifidn %%temp, nbits_base
+ movd mm_save_nbits, nbits_base ; save nbits_base
+%endif
+ movq mm_code_bits, mm_temp ; code_bits (temp register) = temp;
+ movq mm_put_buffer, mm_code ; put_buffer = code;
+ pcmpeqb mm_temp, mm_all_0xff ; b_temp[i] = (b_temp[i] == 0xFF ? 0xFF : 0);
+ movq mm_code, mm_code_bits ; code = code_bits;
+ psrlq mm_code_bits, 32 ; code_bits >>= 32;
+ pmovmskb nbits, mm_temp ; nbits = 0; nbits |= ((b_temp[i] >> 7) << i);
+ movd %%temp, mm_code_bits ; temp = code_bits;
+ bswap %%temp ; temp = htonl(temp);
+ test nbits, nbits ; if (nbits != 0) /* Some 0xFF bytes */
+ jnz %%.SLOW ; goto %%.SLOW
+ mov dword [buffer], %%temp ; *(uint32_t)buffer = temp;
+%ifidn %%temp, nbits_base
+ movd nbits_base, mm_save_nbits ; restore nbits_base
+%endif
+ %4
+ movd nbits, mm_code ; nbits = (uint32_t)(code);
+ %5
+ bswap nbits ; nbits = htonl(nbits);
+ mov dword [buffer + 4], nbits ; *(uint32_t)(buffer + 4) = nbits;
+ lea buffer, [buffer + 8] ; buffer += 8;
+ %6
+ %7
+ %8
+ jmp %9 ; return
+%%.SLOW:
+ ; Execute the equivalent of the EMIT_BYTE() macro in jchuff.c for all 8
+ ; bytes in the qword.
+ mov byte [buffer], %%tempb ; buffer[0] = temp[0];
+ cmp %%tempb, 0xFF ; Set CF if temp[0] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (temp[0] < 0xFF ? 1 : 0));
+ mov byte [buffer], %%temph ; buffer[0] = temp[1];
+ cmp %%temph, 0xFF ; Set CF if temp[1] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (temp[1] < 0xFF ? 1 : 0));
+ shr %%temp, 16 ; temp >>= 16;
+ mov byte [buffer], %%tempb ; buffer[0] = temp[0];
+ cmp %%tempb, 0xFF ; Set CF if temp[0] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (temp[0] < 0xFF ? 1 : 0));
+ mov byte [buffer], %%temph ; buffer[0] = temp[1];
+ cmp %%temph, 0xFF ; Set CF if temp[1] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (temp[1] < 0xFF ? 1 : 0));
+ movd nbits, mm_code ; nbits (temp register) = (uint32_t)(code)
+%ifidn %%temp, nbits_base
+ movd nbits_base, mm_save_nbits ; restore nbits_base
+%endif
+ bswap nbits ; nbits = htonl(nbits)
+ mov byte [buffer], nbitsb ; buffer[0] = nbits[0];
+ cmp nbitsb, 0xFF ; Set CF if nbits[0] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (nbits[0] < 0xFF ? 1 : 0));
+ mov byte [buffer], nbitsh ; buffer[0] = nbits[1];
+ cmp nbitsh, 0xFF ; Set CF if nbits[1] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (nbits[1] < 0xFF ? 1 : 0));
+ shr nbits, 16 ; nbits >>= 16;
+ mov byte [buffer], nbitsb ; buffer[0] = nbits[0];
+ cmp nbitsb, 0xFF ; Set CF if nbits[0] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (nbits[0] < 0xFF ? 1 : 0));
+ mov byte [buffer], nbitsh ; buffer[0] = nbits[1];
+ %4
+ cmp nbitsh, 0xFF ; Set CF if nbits[1] < 0xFF
+ mov byte [buffer+1], 0 ; buffer[1] = 0;
+ sbb buffer, -2 ; buffer -= (-2 + (nbits[1] < 0xFF ? 1 : 0));
+ %5
+ %6
+ %7
+ %8
+ jmp %9 ; return;
+%endmacro
+
+%macro PUSH 1
+ push %1
+%assign stack_offset stack_offset + 4
+%endmacro
+
+%macro POP 1
+ pop %1
+%assign stack_offset stack_offset - 4
+%endmacro
+
+; If PIC is defined, load the address of a symbol defined in this file into a
+; register. Equivalent to
+; get_GOT %1
+; lea %1, [GOTOFF(%1, %2)]
+; without using the GOT.
+;
+; Usage:
+; %1 - register into which to load the address of the symbol
+; %2 - symbol whose address should be loaded
+; %3 - optional multi-line macro to execute before the symbol address is loaded
+; %4 - optional multi-line macro to execute after the symbol address is loaded
+;
+; If PIC is not defined, then %3 and %4 are executed in order.
+
+%macro GET_SYM 2-4
+%ifdef PIC
+ call %%.geteip
+%%.ref:
+ %4
+ add %1, %2 - %%.ref
+ jmp short %%.done
+ align 32
+%%.geteip:
+ %3 4 ; must adjust stack pointer because of call
+ mov %1, POINTER [esp]
+ ret
+ align 32
+%%.done:
+%else
+ %3 0
+ %4
+%endif
+%endmacro
+
+;
+; Encode a single block's worth of coefficients.
+;
+; GLOBAL(JOCTET *)
+; jsimd_huff_encode_one_block_sse2(working_state *state, JOCTET *buffer,
+; JCOEFPTR block, int last_dc_val,
+; c_derived_tbl *dctbl, c_derived_tbl *actbl)
+;
+; Stack layout:
+; Function args
+; Return address
+; Saved ebx
+; Saved ebp
+; Saved esi
+; Saved edi <-- esp_save
+; ...
+; esp_save
+; t_ 64*2 bytes (aligned to 128 bytes)
+;
+; esp is used (as t) to point into t_ (data in lower indices is not used once
+; esp passes over them, so this is signal-safe.) Aligning to 128 bytes allows
+; us to find the rest of the data again.
+;
+; NOTES:
+; When shuffling data, we try to avoid pinsrw as much as possible, since it is
+; slow on many CPUs. Its reciprocal throughput (issue latency) is 1 even on
+; modern CPUs, so chains of pinsrw instructions (even with different outputs)
+; can limit performance. pinsrw is a VectorPath instruction on AMD K8 and
+; requires 2 µops (with memory operand) on Intel. In either case, only one
+; pinsrw instruction can be decoded per cycle (and nothing else if they are
+; back-to-back), so out-of-order execution cannot be used to work around long
+; pinsrw chains (though for Sandy Bridge and later, this may be less of a
+; problem if the code runs from the µop cache.)
+;
+; We use tzcnt instead of bsf without checking for support. The instruction is
+; executed as bsf on CPUs that don't support tzcnt (encoding is equivalent to
+; rep bsf.) The destination (first) operand of bsf (and tzcnt on some CPUs) is
+; an input dependency (although the behavior is not formally defined, Intel
+; CPUs usually leave the destination unmodified if the source is zero.) This
+; can prevent out-of-order execution, so we clear the destination before
+; invoking tzcnt.
+;
+; Initial register allocation
+; eax - frame --> buffer
+; ebx - nbits_base (PIC) / emit_temp
+; ecx - dctbl --> size --> state
+; edx - block --> nbits
+; esi - code_temp --> state --> actbl
+; edi - index_temp --> free_bits
+; esp - t
+; ebp - index
+
+%define frame eax
+%ifdef PIC
+%define nbits_base ebx
+%endif
+%define emit_temp ebx
+%define emit_tempb bl
+%define emit_temph bh
+%define dctbl ecx
+%define block edx
+%define code_temp esi
+%define index_temp edi
+%define t esp
+%define index ebp
+
+%assign save_frame DCTSIZE2 * SIZEOF_WORD
+
+; Step 1: Re-arrange input data according to jpeg_natural_order
+; xx 01 02 03 04 05 06 07 xx 01 08 16 09 02 03 10
+; 08 09 10 11 12 13 14 15 17 24 32 25 18 11 04 05
+; 16 17 18 19 20 21 22 23 12 19 26 33 40 48 41 34
+; 24 25 26 27 28 29 30 31 ==> 27 20 13 06 07 14 21 28
+; 32 33 34 35 36 37 38 39 35 42 49 56 57 50 43 36
+; 40 41 42 43 44 45 46 47 29 22 15 23 30 37 44 51
+; 48 49 50 51 52 53 54 55 58 59 52 45 38 31 39 46
+; 56 57 58 59 60 61 62 63 53 60 61 54 47 55 62 63
+
+ align 32
+ GLOBAL_FUNCTION(jsimd_huff_encode_one_block_sse2)
+
+EXTN(jsimd_huff_encode_one_block_sse2):
+
+%assign stack_offset 0
+%define arg_state 4 + stack_offset
+%define arg_buffer 8 + stack_offset
+%define arg_block 12 + stack_offset
+%define arg_last_dc_val 16 + stack_offset
+%define arg_dctbl 20 + stack_offset
+%define arg_actbl 24 + stack_offset
+
+ ;X: X = code stream
+ mov block, [esp + arg_block]
+ PUSH ebx
+ PUSH ebp
+ movups xmm3, XMMWORD [block + 0 * SIZEOF_WORD] ;D: w3 = xx 01 02 03 04 05 06 07
+ PUSH esi
+ PUSH edi
+ movdqa xmm0, xmm3 ;A: w0 = xx 01 02 03 04 05 06 07
+ mov frame, esp
+ lea t, [frame - (save_frame + 4)]
+ movups xmm1, XMMWORD [block + 8 * SIZEOF_WORD] ;B: w1 = 08 09 10 11 12 13 14 15
+ and t, -DCTSIZE2 * SIZEOF_WORD ; t = &t_[0]
+ mov [t + save_frame], frame
+ pxor xmm4, xmm4 ;A: w4[i] = 0;
+ punpckldq xmm0, xmm1 ;A: w0 = xx 01 08 09 02 03 10 11
+ pshuflw xmm0, xmm0, 11001001b ;A: w0 = 01 08 xx 09 02 03 10 11
+ pinsrw xmm0, word [block + 16 * SIZEOF_WORD], 2 ;A: w0 = 01 08 16 09 02 03 10 11
+ punpckhdq xmm3, xmm1 ;D: w3 = 04 05 12 13 06 07 14 15
+ punpcklqdq xmm1, xmm3 ;B: w1 = 08 09 10 11 04 05 12 13
+ pinsrw xmm0, word [block + 17 * SIZEOF_WORD], 7 ;A: w0 = 01 08 16 09 02 03 10 17
+ ;A: (Row 0, offset 1)
+ pcmpgtw xmm4, xmm0 ;A: w4[i] = (w0[i] < 0 ? -1 : 0);
+ paddw xmm0, xmm4 ;A: w0[i] += w4[i];
+ movaps XMMWORD [t + 0 * SIZEOF_WORD], xmm0 ;A: t[i] = w0[i];
+
+ movq xmm2, qword [block + 24 * SIZEOF_WORD] ;B: w2 = 24 25 26 27 -- -- -- --
+ pshuflw xmm2, xmm2, 11011000b ;B: w2 = 24 26 25 27 -- -- -- --
+ pslldq xmm1, 1 * SIZEOF_WORD ;B: w1 = -- 08 09 10 11 04 05 12
+ movups xmm5, XMMWORD [block + 48 * SIZEOF_WORD] ;H: w5 = 48 49 50 51 52 53 54 55
+ movsd xmm1, xmm2 ;B: w1 = 24 26 25 27 11 04 05 12
+ punpcklqdq xmm2, xmm5 ;C: w2 = 24 26 25 27 48 49 50 51
+ pinsrw xmm1, word [block + 32 * SIZEOF_WORD], 1 ;B: w1 = 24 32 25 27 11 04 05 12
+ pxor xmm4, xmm4 ;A: w4[i] = 0;
+ psrldq xmm3, 2 * SIZEOF_WORD ;D: w3 = 12 13 06 07 14 15 -- --
+ pcmpeqw xmm0, xmm4 ;A: w0[i] = (w0[i] == 0 ? -1 : 0);
+ pinsrw xmm1, word [block + 18 * SIZEOF_WORD], 3 ;B: w1 = 24 32 25 18 11 04 05 12
+ ; (Row 1, offset 1)
+ pcmpgtw xmm4, xmm1 ;B: w4[i] = (w1[i] < 0 ? -1 : 0);
+ paddw xmm1, xmm4 ;B: w1[i] += w4[i];
+ movaps XMMWORD [t + 8 * SIZEOF_WORD], xmm1 ;B: t[i+8] = w1[i];
+ pxor xmm4, xmm4 ;B: w4[i] = 0;
+ pcmpeqw xmm1, xmm4 ;B: w1[i] = (w1[i] == 0 ? -1 : 0);
+
+ packsswb xmm0, xmm1 ;AB: b0[i] = w0[i], b0[i+8] = w1[i]
+ ; w/ signed saturation
+
+ pinsrw xmm3, word [block + 20 * SIZEOF_WORD], 0 ;D: w3 = 20 13 06 07 14 15 -- --
+ pinsrw xmm3, word [block + 21 * SIZEOF_WORD], 5 ;D: w3 = 20 13 06 07 14 21 -- --
+ pinsrw xmm3, word [block + 28 * SIZEOF_WORD], 6 ;D: w3 = 20 13 06 07 14 21 28 --
+ pinsrw xmm3, word [block + 35 * SIZEOF_WORD], 7 ;D: w3 = 20 13 06 07 14 21 28 35
+ ; (Row 3, offset 1)
+ pcmpgtw xmm4, xmm3 ;D: w4[i] = (w3[i] < 0 ? -1 : 0);
+ paddw xmm3, xmm4 ;D: w3[i] += w4[i];
+ movaps XMMWORD [t + 24 * SIZEOF_WORD], xmm3 ;D: t[i+24] = w3[i];
+ pxor xmm4, xmm4 ;D: w4[i] = 0;
+ pcmpeqw xmm3, xmm4 ;D: w3[i] = (w3[i] == 0 ? -1 : 0);
+
+ pinsrw xmm2, word [block + 19 * SIZEOF_WORD], 0 ;C: w2 = 19 26 25 27 48 49 50 51
+ pinsrw xmm2, word [block + 33 * SIZEOF_WORD], 2 ;C: w2 = 19 26 33 27 48 49 50 51
+ pinsrw xmm2, word [block + 40 * SIZEOF_WORD], 3 ;C: w2 = 19 26 33 40 48 49 50 51
+ pinsrw xmm2, word [block + 41 * SIZEOF_WORD], 5 ;C: w2 = 19 26 33 40 48 41 50 51
+ pinsrw xmm2, word [block + 34 * SIZEOF_WORD], 6 ;C: w2 = 19 26 33 40 48 41 34 51
+ pinsrw xmm2, word [block + 27 * SIZEOF_WORD], 7 ;C: w2 = 19 26 33 40 48 41 34 27
+ ; (Row 2, offset 1)
+ pcmpgtw xmm4, xmm2 ;C: w4[i] = (w2[i] < 0 ? -1 : 0);
+ paddw xmm2, xmm4 ;C: w2[i] += w4[i];
+ movsx code_temp, word [block] ;Z: code_temp = block[0];
+
+; %1 - stack pointer adjustment
+%macro GET_SYM_BEFORE 1
+ movaps XMMWORD [t + 16 * SIZEOF_WORD + %1], xmm2
+ ;C: t[i+16] = w2[i];
+ pxor xmm4, xmm4 ;C: w4[i] = 0;
+ pcmpeqw xmm2, xmm4 ;C: w2[i] = (w2[i] == 0 ? -1 : 0);
+ sub code_temp, [frame + arg_last_dc_val] ;Z: code_temp -= last_dc_val;
+
+ packsswb xmm2, xmm3 ;CD: b2[i] = w2[i], b2[i+8] = w3[i]
+ ; w/ signed saturation
+
+ movdqa xmm3, xmm5 ;H: w3 = 48 49 50 51 52 53 54 55
+ pmovmskb index_temp, xmm2 ;Z: index_temp = 0; index_temp |= ((b2[i] >> 7) << i);
+ pmovmskb index, xmm0 ;Z: index = 0; index |= ((b0[i] >> 7) << i);
+ movups xmm0, XMMWORD [block + 56 * SIZEOF_WORD] ;H: w0 = 56 57 58 59 60 61 62 63
+ punpckhdq xmm3, xmm0 ;H: w3 = 52 53 60 61 54 55 62 63
+ shl index_temp, 16 ;Z: index_temp <<= 16;
+ psrldq xmm3, 1 * SIZEOF_WORD ;H: w3 = 53 60 61 54 55 62 63 --
+ pxor xmm2, xmm2 ;H: w2[i] = 0;
+ pshuflw xmm3, xmm3, 00111001b ;H: w3 = 60 61 54 53 55 62 63 --
+ or index, index_temp ;Z: index |= index_temp;
+%undef index_temp
+%define free_bits edi
+%endmacro
+
+%macro GET_SYM_AFTER 0
+ movq xmm1, qword [block + 44 * SIZEOF_WORD] ;G: w1 = 44 45 46 47 -- -- -- --
+ unpcklps xmm5, xmm0 ;E: w5 = 48 49 56 57 50 51 58 59
+ pxor xmm0, xmm0 ;H: w0[i] = 0;
+ not index ;Z: index = ~index;
+ pinsrw xmm3, word [block + 47 * SIZEOF_WORD], 3 ;H: w3 = 60 61 54 47 55 62 63 --
+ ; (Row 7, offset 1)
+ pcmpgtw xmm2, xmm3 ;H: w2[i] = (w3[i] < 0 ? -1 : 0);
+ mov dctbl, [frame + arg_dctbl]
+ paddw xmm3, xmm2 ;H: w3[i] += w2[i];
+ movaps XMMWORD [t + 56 * SIZEOF_WORD], xmm3 ;H: t[i+56] = w3[i];
+ movq xmm4, qword [block + 36 * SIZEOF_WORD] ;G: w4 = 36 37 38 39 -- -- -- --
+ pcmpeqw xmm3, xmm0 ;H: w3[i] = (w3[i] == 0 ? -1 : 0);
+ punpckldq xmm4, xmm1 ;G: w4 = 36 37 44 45 38 39 46 47
+ movdqa xmm1, xmm4 ;F: w1 = 36 37 44 45 38 39 46 47
+ pcmpeqw mm_all_0xff, mm_all_0xff ;Z: all_0xff[i] = 0xFF;
+%endmacro
+
+ GET_SYM nbits_base, jpeg_nbits_table, GET_SYM_BEFORE, GET_SYM_AFTER
+
+ psrldq xmm4, 1 * SIZEOF_WORD ;G: w4 = 37 44 45 38 39 46 47 --
+ shufpd xmm1, xmm5, 10b ;F: w1 = 36 37 44 45 50 51 58 59
+ pshufhw xmm4, xmm4, 11010011b ;G: w4 = 37 44 45 38 -- 39 46 --
+ pslldq xmm1, 1 * SIZEOF_WORD ;F: w1 = -- 36 37 44 45 50 51 58
+ pinsrw xmm4, word [block + 59 * SIZEOF_WORD], 0 ;G: w4 = 59 44 45 38 -- 39 46 --
+ pshufd xmm1, xmm1, 11011000b ;F: w1 = -- 36 45 50 37 44 51 58
+ cmp code_temp, 1 << 31 ;Z: Set CF if code_temp < 0x80000000,
+ ;Z: i.e. if code_temp is positive
+ pinsrw xmm4, word [block + 52 * SIZEOF_WORD], 1 ;G: w4 = 59 52 45 38 -- 39 46 --
+ movlps xmm1, qword [block + 20 * SIZEOF_WORD] ;F: w1 = 20 21 22 23 37 44 51 58
+ pinsrw xmm4, word [block + 31 * SIZEOF_WORD], 4 ;G: w4 = 59 52 45 38 31 39 46 --
+ pshuflw xmm1, xmm1, 01110010b ;F: w1 = 22 20 23 21 37 44 51 58
+ pinsrw xmm4, word [block + 53 * SIZEOF_WORD], 7 ;G: w4 = 59 52 45 38 31 39 46 53
+ ; (Row 6, offset 1)
+ adc code_temp, -1 ;Z: code_temp += -1 + (code_temp >= 0 ? 1 : 0);
+ pxor xmm2, xmm2 ;G: w2[i] = 0;
+ pcmpgtw xmm0, xmm4 ;G: w0[i] = (w4[i] < 0 ? -1 : 0);
+ pinsrw xmm1, word [block + 15 * SIZEOF_WORD], 1 ;F: w1 = 22 15 23 21 37 44 51 58
+ paddw xmm4, xmm0 ;G: w4[i] += w0[i];
+ movaps XMMWORD [t + 48 * SIZEOF_WORD], xmm4 ;G: t[48+i] = w4[i];
+ movd mm_temp, code_temp ;Z: temp = code_temp
+ pinsrw xmm1, word [block + 30 * SIZEOF_WORD], 3 ;F: w1 = 22 15 23 30 37 44 51 58
+ ; (Row 5, offset 1)
+ pcmpeqw xmm4, xmm2 ;G: w4[i] = (w4[i] == 0 ? -1 : 0);
+
+ packsswb xmm4, xmm3 ;GH: b4[i] = w4[i], b4[i+8] = w3[i]
+ ; w/ signed saturation
+
+ lea t, [t - SIZEOF_WORD] ;Z: t = &t[-1]
+ pxor xmm0, xmm0 ;F: w0[i] = 0;
+ pcmpgtw xmm2, xmm1 ;F: w2[i] = (w1[i] < 0 ? -1 : 0);
+ paddw xmm1, xmm2 ;F: w1[i] += w2[i];
+ movaps XMMWORD [t + (40+1) * SIZEOF_WORD], xmm1 ;F: t[40+i] = w1[i];
+ pcmpeqw xmm1, xmm0 ;F: w1[i] = (w1[i] == 0 ? -1 : 0);
+ pinsrw xmm5, word [block + 42 * SIZEOF_WORD], 0 ;E: w5 = 42 49 56 57 50 51 58 59
+ pinsrw xmm5, word [block + 43 * SIZEOF_WORD], 5 ;E: w5 = 42 49 56 57 50 43 58 59
+ pinsrw xmm5, word [block + 36 * SIZEOF_WORD], 6 ;E: w5 = 42 49 56 57 50 43 36 59
+ pinsrw xmm5, word [block + 29 * SIZEOF_WORD], 7 ;E: w5 = 42 49 56 57 50 43 36 29
+ ; (Row 4, offset 1)
+%undef block
+%define nbits edx
+%define nbitsb dl
+%define nbitsh dh
+ movzx nbits, byte [NBITS(code_temp)] ;Z: nbits = JPEG_NBITS(code_temp);
+%undef code_temp
+%define state esi
+ pxor xmm2, xmm2 ;E: w2[i] = 0;
+ mov state, [frame + arg_state]
+ movd mm_nbits, nbits ;Z: nbits --> MMX register
+ pcmpgtw xmm0, xmm5 ;E: w0[i] = (w5[i] < 0 ? -1 : 0);
+ movd mm_code, dword [dctbl + c_derived_tbl.ehufco + nbits * 4]
+ ;Z: code = dctbl->ehufco[nbits];
+%define size ecx
+%define sizeb cl
+%define sizeh ch
+ paddw xmm5, xmm0 ;E: w5[i] += w0[i];
+ movaps XMMWORD [t + (32+1) * SIZEOF_WORD], xmm5 ;E: t[32+i] = w5[i];
+ movzx size, byte [dctbl + c_derived_tbl.ehufsi + nbits]
+ ;Z: size = dctbl->ehufsi[nbits];
+%undef dctbl
+ pcmpeqw xmm5, xmm2 ;E: w5[i] = (w5[i] == 0 ? -1 : 0);
+
+ packsswb xmm5, xmm1 ;EF: b5[i] = w5[i], b5[i+8] = w1[i]
+ ; w/ signed saturation
+
+ movq mm_put_buffer, [state + working_state.cur.put_buffer.simd]
+ ;Z: put_buffer = state->cur.put_buffer.simd;
+ mov free_bits, [state + working_state.cur.free_bits]
+ ;Z: free_bits = state->cur.free_bits;
+%undef state
+%define actbl esi
+ mov actbl, [frame + arg_actbl]
+%define buffer eax
+ mov buffer, [frame + arg_buffer]
+%undef frame
+ jmp .BEGIN
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+; size <= 32, so this is not really a loop
+.BRLOOP1: ; .BRLOOP1:
+ movzx nbits, byte [actbl + c_derived_tbl.ehufsi + 0xf0]
+ ; nbits = actbl->ehufsi[0xf0];
+ movd mm_code, dword [actbl + c_derived_tbl.ehufco + 0xf0 * 4]
+ ; code = actbl->ehufco[0xf0];
+ and index, 0x7ffffff ; clear index if size == 32
+ sub size, 16 ; size -= 16;
+ sub free_bits, nbits ; if ((free_bits -= nbits) <= 0)
+ jle .EMIT_BRLOOP1 ; goto .EMIT_BRLOOP1;
+ movd mm_nbits, nbits ; nbits --> MMX register
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ por mm_put_buffer, mm_code ; put_buffer |= code;
+ jmp .ERLOOP1 ; goto .ERLOOP1;
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+%ifdef PIC
+ times 6 nop
+%else
+ times 2 nop
+%endif
+.BLOOP1: ; do { /* size = # of zero bits/elements to skip */
+; if size == 32, index remains unchanged. Correct in .BRLOOP.
+ shr index, sizeb ; index >>= size;
+ lea t, [t + size * SIZEOF_WORD] ; t += size;
+ cmp size, 16 ; if (size > 16)
+ jg .BRLOOP1 ; goto .BRLOOP1;
+.ERLOOP1: ; .ERLOOP1:
+ movsx nbits, word [t] ; nbits = *t;
+%ifdef PIC
+ add size, size ; size += size;
+%else
+ lea size, [size * 2] ; size += size;
+%endif
+ movd mm_temp, nbits ; temp = nbits;
+ movzx nbits, byte [NBITS(nbits)] ; nbits = JPEG_NBITS(nbits);
+ lea size, [size * 8 + nbits] ; size = size * 8 + nbits;
+ movd mm_nbits, nbits ; nbits --> MMX register
+ movd mm_code, dword [actbl + c_derived_tbl.ehufco + (size - 16) * 4]
+ ; code = actbl->ehufco[size-16];
+ movzx size, byte [actbl + c_derived_tbl.ehufsi + (size - 16)]
+ ; size = actbl->ehufsi[size-16];
+.BEGIN: ; .BEGIN:
+ pand mm_temp, [MASK_BITS(nbits)] ; temp &= (1 << nbits) - 1;
+ psllq mm_code, mm_nbits ; code <<= nbits;
+ add nbits, size ; nbits += size;
+ por mm_code, mm_temp ; code |= temp;
+ sub free_bits, nbits ; if ((free_bits -= nbits) <= 0)
+ jle .EMIT_ERLOOP1 ; insert code, flush buffer, init size, goto .BLOOP1
+ xor size, size ; size = 0; /* kill tzcnt input dependency */
+ tzcnt size, index ; size = # of trailing 0 bits in index
+ movd mm_nbits, nbits ; nbits --> MMX register
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ inc size ; ++size;
+ por mm_put_buffer, mm_code ; put_buffer |= code;
+ test index, index
+ jnz .BLOOP1 ; } while (index != 0);
+; Round 2
+; t points to the last used word, possibly below t_ if the previous index had 32 zero bits.
+.ELOOP1: ; .ELOOP1:
+ pmovmskb size, xmm4 ; size = 0; size |= ((b4[i] >> 7) << i);
+ pmovmskb index, xmm5 ; index = 0; index |= ((b5[i] >> 7) << i);
+ shl size, 16 ; size <<= 16;
+ or index, size ; index |= size;
+ not index ; index = ~index;
+ lea nbits, [t + (1 + DCTSIZE2) * SIZEOF_WORD]
+ ; nbits = t + 1 + 64;
+ and nbits, -DCTSIZE2 * SIZEOF_WORD ; nbits &= -128; /* now points to &t_[64] */
+ sub nbits, t ; nbits -= t;
+ shr nbits, 1 ; nbits >>= 1; /* # of leading 0 bits in old index + 33 */
+ tzcnt size, index ; size = # of trailing 0 bits in index
+ inc size ; ++size;
+ test index, index ; if (index == 0)
+ jz .ELOOP2 ; goto .ELOOP2;
+; NOTE: size == 32 cannot happen, since the last element is always 0.
+ shr index, sizeb ; index >>= size;
+ lea size, [size + nbits - 33] ; size = size + nbits - 33;
+ lea t, [t + size * SIZEOF_WORD] ; t += size;
+ cmp size, 16 ; if (size <= 16)
+ jle .ERLOOP2 ; goto .ERLOOP2;
+.BRLOOP2: ; do {
+ movzx nbits, byte [actbl + c_derived_tbl.ehufsi + 0xf0]
+ ; nbits = actbl->ehufsi[0xf0];
+ sub size, 16 ; size -= 16;
+ movd mm_code, dword [actbl + c_derived_tbl.ehufco + 0xf0 * 4]
+ ; code = actbl->ehufco[0xf0];
+ sub free_bits, nbits ; if ((free_bits -= nbits) <= 0)
+ jle .EMIT_BRLOOP2 ; insert code and flush put_buffer
+ movd mm_nbits, nbits ; else { nbits --> MMX register
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ por mm_put_buffer, mm_code ; put_buffer |= code;
+ cmp size, 16 ; if (size <= 16)
+ jle .ERLOOP2 ; goto .ERLOOP2;
+ jmp .BRLOOP2 ; } while (1);
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+.BLOOP2: ; do { /* size = # of zero bits/elements to skip */
+ shr index, sizeb ; index >>= size;
+ lea t, [t + size * SIZEOF_WORD] ; t += size;
+ cmp size, 16 ; if (size > 16)
+ jg .BRLOOP2 ; goto .BRLOOP2;
+.ERLOOP2: ; .ERLOOP2:
+ movsx nbits, word [t] ; nbits = *t;
+ add size, size ; size += size;
+ movd mm_temp, nbits ; temp = nbits;
+ movzx nbits, byte [NBITS(nbits)] ; nbits = JPEG_NBITS(nbits);
+ movd mm_nbits, nbits ; nbits --> MMX register
+ lea size, [size * 8 + nbits] ; size = size * 8 + nbits;
+ movd mm_code, dword [actbl + c_derived_tbl.ehufco + (size - 16) * 4]
+ ; code = actbl->ehufco[size-16];
+ movzx size, byte [actbl + c_derived_tbl.ehufsi + (size - 16)]
+ ; size = actbl->ehufsi[size-16];
+ psllq mm_code, mm_nbits ; code <<= nbits;
+ pand mm_temp, [MASK_BITS(nbits)] ; temp &= (1 << nbits) - 1;
+ lea nbits, [nbits + size] ; nbits += size;
+ por mm_code, mm_temp ; code |= temp;
+ xor size, size ; size = 0; /* kill tzcnt input dependency */
+ sub free_bits, nbits ; if ((free_bits -= nbits) <= 0)
+ jle .EMIT_ERLOOP2 ; insert code, flush buffer, init size, goto .BLOOP2
+ tzcnt size, index ; size = # of trailing 0 bits in index
+ movd mm_nbits, nbits ; nbits --> MMX register
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ inc size ; ++size;
+ por mm_put_buffer, mm_code ; put_buffer |= code;
+ test index, index
+ jnz .BLOOP2 ; } while (index != 0);
+.ELOOP2: ; .ELOOP2:
+ mov nbits, t ; nbits = t;
+ lea t, [t + SIZEOF_WORD] ; t = &t[1];
+ and nbits, DCTSIZE2 * SIZEOF_WORD - 1 ; nbits &= 127;
+ and t, -DCTSIZE2 * SIZEOF_WORD ; t &= -128; /* t = &t_[0]; */
+ cmp nbits, (DCTSIZE2 - 2) * SIZEOF_WORD ; if (nbits != 62 * 2)
+ je .EFN ; {
+ movd mm_code, dword [actbl + c_derived_tbl.ehufco + 0]
+ ; code = actbl->ehufco[0];
+ movzx nbits, byte [actbl + c_derived_tbl.ehufsi + 0]
+ ; nbits = actbl->ehufsi[0];
+ sub free_bits, nbits ; if ((free_bits -= nbits) <= 0)
+ jg .EFN_SKIP_EMIT_CODE ; {
+ EMIT_QWORD size, sizeb, sizeh, , , , , , .EFN ; insert code, flush put_buffer
+ align 16
+.EFN_SKIP_EMIT_CODE: ; } else {
+ movd mm_nbits, nbits ; nbits --> MMX register
+ psllq mm_put_buffer, mm_nbits ; put_buffer <<= nbits;
+ por mm_put_buffer, mm_code ; put_buffer |= code;
+.EFN: ; } }
+%define frame esp
+ mov frame, [t + save_frame]
+%define state ecx
+ mov state, [frame + arg_state]
+ movq [state + working_state.cur.put_buffer.simd], mm_put_buffer
+ ; state->cur.put_buffer.simd = put_buffer;
+ emms
+ mov [state + working_state.cur.free_bits], free_bits
+ ; state->cur.free_bits = free_bits;
+ POP edi
+ POP esi
+ POP ebp
+ POP ebx
+ ret
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+.EMIT_BRLOOP1:
+ EMIT_QWORD emit_temp, emit_tempb, emit_temph, , , , , , \
+ .ERLOOP1
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+.EMIT_ERLOOP1:
+ EMIT_QWORD size, sizeb, sizeh, \
+ { xor size, size }, \
+ { tzcnt size, index }, \
+ { inc size }, \
+ { test index, index }, \
+ { jnz .BLOOP1 }, \
+ .ELOOP1
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+.EMIT_BRLOOP2:
+ EMIT_QWORD emit_temp, emit_tempb, emit_temph, , , , \
+ { cmp size, 16 }, \
+ { jle .ERLOOP2 }, \
+ .BRLOOP2
+
+; ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+
+ align 16
+.EMIT_ERLOOP2:
+ EMIT_QWORD size, sizeb, sizeh, \
+ { xor size, size }, \
+ { tzcnt size, index }, \
+ { inc size }, \
+ { test index, index }, \
+ { jnz .BLOOP2 }, \
+ .ELOOP2
+
+; For some reason, the OS X linker does not honor the request to align the
+; segment unless we do this.
+ align 32