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mozjpeg/simd/jsimd_mips_dspr2_asm.h
DRC 123f7258a8 Format copyright headers more consistently 
The IJG convention is to format copyright notices as:

Copyright (C) YYYY, Owner.

We try to maintain this convention for any code that is part of the
libjpeg API library (with the exception of preserving the copyright
notices from Cendio's code verbatim, since those predate
libjpeg-turbo.)

Note that the phrase "All Rights Reserved" is no longer necessary, since
all Buenos Aires Convention signatories signed onto the Berne Convention
in 2000.  However, our convention is to retain this phrase for any files
that have a self-contained copyright header but to leave it off of any
files that refer to another file for conditions of distribution and use.
For instance, all of the non-SIMD files in the libjpeg API library refer
to README.ijg, and the copyright message in that file contains "All
Rights Reserved", so it is unnecessary to add it to the individual
files.

The TurboJPEG code retains my preferred formatting convention for
copyright notices, which is based on that of VirtualGL (where the
TurboJPEG API originated.)
2016-05-28 19:16:58 -05:00

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/*
* MIPS DSPr2 optimizations for libjpeg-turbo
*
* Copyright (C) 2013, MIPS Technologies, Inc., California.
* All Rights Reserved.
* Authors: Teodora Novkovic (teodora.novkovic@imgtec.com)
* Darko Laus (darko.laus@imgtec.com)
* This software is provided 'as-is', without any express or implied
* warranty. In no event will the authors be held liable for any damages
* arising from the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software
* in a product, an acknowledgment in the product documentation would be
* appreciated but is not required.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*/
#define zero $0
#define AT $1
#define v0 $2
#define v1 $3
#define a0 $4
#define a1 $5
#define a2 $6
#define a3 $7
#define t0 $8
#define t1 $9
#define t2 $10
#define t3 $11
#define t4 $12
#define t5 $13
#define t6 $14
#define t7 $15
#define s0 $16
#define s1 $17
#define s2 $18
#define s3 $19
#define s4 $20
#define s5 $21
#define s6 $22
#define s7 $23
#define t8 $24
#define t9 $25
#define k0 $26
#define k1 $27
#define gp $28
#define sp $29
#define fp $30
#define s8 $30
#define ra $31
#define f0 $f0
#define f1 $f1
#define f2 $f2
#define f3 $f3
#define f4 $f4
#define f5 $f5
#define f6 $f6
#define f7 $f7
#define f8 $f8
#define f9 $f9
#define f10 $f10
#define f11 $f11
#define f12 $f12
#define f13 $f13
#define f14 $f14
#define f15 $f15
#define f16 $f16
#define f17 $f17
#define f18 $f18
#define f19 $f19
#define f20 $f20
#define f21 $f21
#define f22 $f22
#define f23 $f23
#define f24 $f24
#define f25 $f25
#define f26 $f26
#define f27 $f27
#define f28 $f28
#define f29 $f29
#define f30 $f30
#define f31 $f31
/*
* LEAF_MIPS32R2 - declare leaf routine for MIPS32r2
*/
#define LEAF_MIPS32R2(symbol) \
.globl symbol; \
.align 2; \
.type symbol, @function; \
.ent symbol, 0; \
symbol: .frame sp, 0, ra; \
.set push; \
.set arch=mips32r2; \
.set noreorder; \
.set noat;
/*
* LEAF_MIPS_DSPR2 - declare leaf routine for MIPS DSPr2
*/
#define LEAF_MIPS_DSPR2(symbol) \
LEAF_MIPS32R2(symbol) \
.set dspr2;
/*
* END - mark end of function
*/
#define END(function) \
.set pop; \
.end function; \
.size function,.-function
/*
* Checks if stack offset is big enough for storing/restoring regs_num
* number of register to/from stack. Stack offset must be greater than
* or equal to the number of bytes needed for storing registers (regs_num*4).
* Since MIPS ABI allows usage of first 16 bytes of stack frame (this is
* preserved for input arguments of the functions, already stored in a0-a3),
* stack size can be further optimized by utilizing this space.
*/
.macro CHECK_STACK_OFFSET regs_num, stack_offset
.if \stack_offset < \regs_num * 4 - 16
.error "Stack offset too small."
.endif
.endm
/*
* Saves set of registers on stack. Maximum number of registers that
* can be saved on stack is limitted to 14 (a0-a3, v0-v1 and s0-s7).
* Stack offset is number of bytes that are added to stack pointer (sp)
* before registers are pushed in order to provide enough space on stack
* (offset must be multiple of 4, and must be big enough, as described by
* CHECK_STACK_OFFSET macro). This macro is intended to be used in
* combination with RESTORE_REGS_FROM_STACK macro. Example:
* SAVE_REGS_ON_STACK 4, v0, v1, s0, s1
* RESTORE_REGS_FROM_STACK 4, v0, v1, s0, s1
*/
.macro SAVE_REGS_ON_STACK stack_offset = 0, r1, \
r2 = 0, r3 = 0, r4 = 0, \
r5 = 0, r6 = 0, r7 = 0, \
r8 = 0, r9 = 0, r10 = 0, \
r11 = 0, r12 = 0, r13 = 0, \
r14 = 0
.if (\stack_offset < 0) || (\stack_offset - (\stack_offset / 4) * 4)
.error "Stack offset must be pozitive and multiple of 4."
.endif
.if \stack_offset != 0
addiu sp, sp, -\stack_offset
.endif
sw \r1, 0(sp)
.if \r2 != 0
sw \r2, 4(sp)
.endif
.if \r3 != 0
sw \r3, 8(sp)
.endif
.if \r4 != 0
sw \r4, 12(sp)
.endif
.if \r5 != 0
CHECK_STACK_OFFSET 5, \stack_offset
sw \r5, 16(sp)
.endif
.if \r6 != 0
CHECK_STACK_OFFSET 6, \stack_offset
sw \r6, 20(sp)
.endif
.if \r7 != 0
CHECK_STACK_OFFSET 7, \stack_offset
sw \r7, 24(sp)
.endif
.if \r8 != 0
CHECK_STACK_OFFSET 8, \stack_offset
sw \r8, 28(sp)
.endif
.if \r9 != 0
CHECK_STACK_OFFSET 9, \stack_offset
sw \r9, 32(sp)
.endif
.if \r10 != 0
CHECK_STACK_OFFSET 10, \stack_offset
sw \r10, 36(sp)
.endif
.if \r11 != 0
CHECK_STACK_OFFSET 11, \stack_offset
sw \r11, 40(sp)
.endif
.if \r12 != 0
CHECK_STACK_OFFSET 12, \stack_offset
sw \r12, 44(sp)
.endif
.if \r13 != 0
CHECK_STACK_OFFSET 13, \stack_offset
sw \r13, 48(sp)
.endif
.if \r14 != 0
CHECK_STACK_OFFSET 14, \stack_offset
sw \r14, 52(sp)
.endif
.endm
/*
* Restores set of registers from stack. Maximum number of registers that
* can be restored from stack is limitted to 14 (a0-a3, v0-v1 and s0-s7).
* Stack offset is number of bytes that are added to stack pointer (sp)
* after registers are restored (offset must be multiple of 4, and must
* be big enough, as described by CHECK_STACK_OFFSET macro). This macro is
* intended to be used in combination with RESTORE_REGS_FROM_STACK macro.
* Example:
* SAVE_REGS_ON_STACK 4, v0, v1, s0, s1
* RESTORE_REGS_FROM_STACK 4, v0, v1, s0, s1
*/
.macro RESTORE_REGS_FROM_STACK stack_offset = 0, r1, \
r2 = 0, r3 = 0, r4 = 0, \
r5 = 0, r6 = 0, r7 = 0, \
r8 = 0, r9 = 0, r10 = 0, \
r11 = 0, r12 = 0, r13 = 0, \
r14 = 0
.if (\stack_offset < 0) || (\stack_offset - (\stack_offset/4)*4)
.error "Stack offset must be pozitive and multiple of 4."
.endif
lw \r1, 0(sp)
.if \r2 != 0
lw \r2, 4(sp)
.endif
.if \r3 != 0
lw \r3, 8(sp)
.endif
.if \r4 != 0
lw \r4, 12(sp)
.endif
.if \r5 != 0
CHECK_STACK_OFFSET 5, \stack_offset
lw \r5, 16(sp)
.endif
.if \r6 != 0
CHECK_STACK_OFFSET 6, \stack_offset
lw \r6, 20(sp)
.endif
.if \r7 != 0
CHECK_STACK_OFFSET 7, \stack_offset
lw \r7, 24(sp)
.endif
.if \r8 != 0
CHECK_STACK_OFFSET 8, \stack_offset
lw \r8, 28(sp)
.endif
.if \r9 != 0
CHECK_STACK_OFFSET 9, \stack_offset
lw \r9, 32(sp)
.endif
.if \r10 != 0
CHECK_STACK_OFFSET 10, \stack_offset
lw \r10, 36(sp)
.endif
.if \r11 != 0
CHECK_STACK_OFFSET 11, \stack_offset
lw \r11, 40(sp)
.endif
.if \r12 != 0
CHECK_STACK_OFFSET 12, \stack_offset
lw \r12, 44(sp)
.endif
.if \r13 != 0
CHECK_STACK_OFFSET 13, \stack_offset
lw \r13, 48(sp)
.endif
.if \r14 != 0
CHECK_STACK_OFFSET 14, \stack_offset
lw \r14, 52(sp)
.endif
.if \stack_offset != 0
addiu sp, sp, \stack_offset
.endif
.endm
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