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Currently, if VIS is enabled by configure, it will also be enabled at run-time regardless of its support in the hardware. Thus, masking VIS usage as it is done in vis.h by constructing binary instructions is pointless. Using normal VIS mnemonics in inline assembly allows to take advantage of automatic register allocation, gets rid of register variables, which are unsupported by suncc for SPARC, and improves code readability. Signed-off-by: Diego Biurrun <diego@biurrun.de>
265 lines
11 KiB
C
265 lines
11 KiB
C
/*
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* Copyright (C) 2003 David S. Miller <davem@redhat.com>
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*
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* This file is part of Libav.
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*
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* Libav is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* Libav is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with Libav; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/* You may be asking why I hard-code the instruction opcodes and don't
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* use the normal VIS assembler mnenomics for the VIS instructions.
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*
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* The reason is that Sun, in their infinite wisdom, decided that a binary
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* using a VIS instruction will cause it to be marked (in the ELF headers)
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* as doing so, and this prevents the OS from loading such binaries if the
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* current cpu doesn't have VIS. There is no way to easily override this
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* behavior of the assembler that I am aware of.
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*
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* This totally defeats what libmpeg2 is trying to do which is allow a
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* single binary to be created, and then detect the availability of VIS
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* at runtime.
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*
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* I'm not saying that tainting the binary by default is bad, rather I'm
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* saying that not providing a way to override this easily unnecessarily
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* ties people's hands.
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*
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* Thus, we do the opcode encoding by hand and output 32-bit words in
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* the assembler to keep the binary from becoming tainted.
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*/
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#ifndef AVCODEC_SPARC_VIS_H
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#define AVCODEC_SPARC_VIS_H
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#define ACCEL_SPARC_VIS 1
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#define ACCEL_SPARC_VIS2 2
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static inline int vis_level(void)
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{
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int accel = 0;
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accel |= ACCEL_SPARC_VIS;
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accel |= ACCEL_SPARC_VIS2;
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return accel;
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}
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#define vis_opc_base ((0x1 << 31) | (0x36 << 19))
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#define vis_opf(X) ((X) << 5)
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#define vis_sreg(X) (X)
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#define vis_dreg(X) (((X)&0x1f)|((X)>>5))
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#define vis_rs1_s(X) (vis_sreg(X) << 14)
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#define vis_rs1_d(X) (vis_dreg(X) << 14)
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#define vis_rs2_s(X) (vis_sreg(X) << 0)
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#define vis_rs2_d(X) (vis_dreg(X) << 0)
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#define vis_rd_s(X) (vis_sreg(X) << 25)
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#define vis_rd_d(X) (vis_dreg(X) << 25)
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#define vis_ss2s(opf,rs1,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_s(rs1) | \
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vis_rs2_s(rs2) | \
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vis_rd_s(rd)))
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#define vis_dd2d(opf,rs1,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_d(rs1) | \
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vis_rs2_d(rs2) | \
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vis_rd_d(rd)))
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#define vis_ss2d(opf,rs1,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_s(rs1) | \
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vis_rs2_s(rs2) | \
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vis_rd_d(rd)))
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#define vis_sd2d(opf,rs1,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_s(rs1) | \
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vis_rs2_d(rs2) | \
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vis_rd_d(rd)))
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#define vis_d2s(opf,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs2_d(rs2) | \
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vis_rd_s(rd)))
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#define vis_s2d(opf,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs2_s(rs2) | \
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vis_rd_d(rd)))
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#define vis_d12d(opf,rs1,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_d(rs1) | \
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vis_rd_d(rd)))
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#define vis_d22d(opf,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs2_d(rs2) | \
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vis_rd_d(rd)))
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#define vis_s12s(opf,rs1,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs1_s(rs1) | \
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vis_rd_s(rd)))
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#define vis_s22s(opf,rs2,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rs2_s(rs2) | \
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vis_rd_s(rd)))
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#define vis_s(opf,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rd_s(rd)))
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#define vis_d(opf,rd) \
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__asm__ volatile (".word %0" \
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: : "i" (vis_opc_base | vis_opf(opf) | \
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vis_rd_d(rd)))
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#define vis_r2m(op,rd,mem) \
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__asm__ volatile (#op "\t%%f" #rd ", [%0]" : : "r" (&(mem)) )
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#define vis_r2m_2(op,rd,mem1,mem2) \
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__asm__ volatile (#op "\t%%f" #rd ", [%0 + %1]" : : "r" (mem1), "r" (mem2) )
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#define vis_m2r(op,mem,rd) \
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__asm__ volatile (#op "\t[%0], %%f" #rd : : "r" (&(mem)) )
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#define vis_m2r_2(op,mem1,mem2,rd) \
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__asm__ volatile (#op "\t[%0 + %1], %%f" #rd : : "r" (mem1), "r" (mem2) )
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static inline void vis_set_gsr(unsigned int val)
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{
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__asm__ volatile("mov %0,%%asr19"
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: : "r" (val));
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}
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#define VIS_GSR_ALIGNADDR_MASK 0x0000007
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#define VIS_GSR_ALIGNADDR_SHIFT 0
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#define VIS_GSR_SCALEFACT_MASK 0x0000078
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#define VIS_GSR_SCALEFACT_SHIFT 3
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#define vis_ld32(mem,rs1) vis_m2r(ld, mem, rs1)
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#define vis_ld32_2(mem1,mem2,rs1) vis_m2r_2(ld, mem1, mem2, rs1)
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#define vis_st32(rs1,mem) vis_r2m(st, rs1, mem)
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#define vis_st32_2(rs1,mem1,mem2) vis_r2m_2(st, rs1, mem1, mem2)
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#define vis_ld64(mem,rs1) vis_m2r(ldd, mem, rs1)
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#define vis_ld64_2(mem1,mem2,rs1) vis_m2r_2(ldd, mem1, mem2, rs1)
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#define vis_st64(rs1,mem) vis_r2m(std, rs1, mem)
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#define vis_st64_2(rs1,mem1,mem2) vis_r2m_2(std, rs1, mem1, mem2)
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/* 16 and 32 bit partitioned addition and subtraction. The normal
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* versions perform 4 16-bit or 2 32-bit additions or subtractions.
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* The 's' versions perform 2 16-bit or 1 32-bit additions or
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* subtractions.
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*/
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#define vis_padd16(rs1,rs2,rd) vis_dd2d(0x50, rs1, rs2, rd)
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#define vis_padd16s(rs1,rs2,rd) vis_ss2s(0x51, rs1, rs2, rd)
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#define vis_padd32(rs1,rs2,rd) vis_dd2d(0x52, rs1, rs2, rd)
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#define vis_padd32s(rs1,rs2,rd) vis_ss2s(0x53, rs1, rs2, rd)
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#define vis_psub16(rs1,rs2,rd) vis_dd2d(0x54, rs1, rs2, rd)
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#define vis_psub16s(rs1,rs2,rd) vis_ss2s(0x55, rs1, rs2, rd)
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#define vis_psub32(rs1,rs2,rd) vis_dd2d(0x56, rs1, rs2, rd)
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#define vis_psub32s(rs1,rs2,rd) vis_ss2s(0x57, rs1, rs2, rd)
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/* Pixel formatting instructions. */
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#define vis_pack16(rs2,rd) vis_d2s( 0x3b, rs2, rd)
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#define vis_pack32(rs1,rs2,rd) vis_dd2d(0x3a, rs1, rs2, rd)
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#define vis_packfix(rs2,rd) vis_d2s( 0x3d, rs2, rd)
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#define vis_expand(rs2,rd) vis_s2d( 0x4d, rs2, rd)
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#define vis_pmerge(rs1,rs2,rd) vis_ss2d(0x4b, rs1, rs2, rd)
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/* Partitioned multiply instructions. */
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#define vis_mul8x16(rs1,rs2,rd) vis_sd2d(0x31, rs1, rs2, rd)
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#define vis_mul8x16au(rs1,rs2,rd) vis_ss2d(0x33, rs1, rs2, rd)
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#define vis_mul8x16al(rs1,rs2,rd) vis_ss2d(0x35, rs1, rs2, rd)
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#define vis_mul8sux16(rs1,rs2,rd) vis_dd2d(0x36, rs1, rs2, rd)
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#define vis_mul8ulx16(rs1,rs2,rd) vis_dd2d(0x37, rs1, rs2, rd)
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#define vis_muld8sux16(rs1,rs2,rd) vis_ss2d(0x38, rs1, rs2, rd)
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#define vis_muld8ulx16(rs1,rs2,rd) vis_ss2d(0x39, rs1, rs2, rd)
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/* Alignment instructions. */
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static inline const void *vis_alignaddr(const void *ptr)
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{
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__asm__ volatile("alignaddr %0, %%g0, %0"
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: "=&r" (ptr)
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: "0" (ptr));
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return ptr;
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}
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static inline void vis_alignaddr_g0(void *ptr)
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{
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__asm__ volatile("alignaddr %0, %%g0, %%g0"
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: : "r" (ptr));
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}
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#define vis_faligndata(rs1,rs2,rd) vis_dd2d(0x48, rs1, rs2, rd)
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/* Logical operate instructions. */
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#define vis_fzero(rd) vis_d( 0x60, rd)
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#define vis_fzeros(rd) vis_s( 0x61, rd)
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#define vis_fone(rd) vis_d( 0x7e, rd)
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#define vis_fones(rd) vis_s( 0x7f, rd)
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#define vis_src1(rs1,rd) vis_d12d(0x74, rs1, rd)
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#define vis_src1s(rs1,rd) vis_s12s(0x75, rs1, rd)
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#define vis_src2(rs2,rd) vis_d22d(0x78, rs2, rd)
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#define vis_src2s(rs2,rd) vis_s22s(0x79, rs2, rd)
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#define vis_not1(rs1,rd) vis_d12d(0x6a, rs1, rd)
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#define vis_not1s(rs1,rd) vis_s12s(0x6b, rs1, rd)
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#define vis_not2(rs2,rd) vis_d22d(0x66, rs2, rd)
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#define vis_not2s(rs2,rd) vis_s22s(0x67, rs2, rd)
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#define vis_or(rs1,rs2,rd) vis_dd2d(0x7c, rs1, rs2, rd)
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#define vis_ors(rs1,rs2,rd) vis_ss2s(0x7d, rs1, rs2, rd)
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#define vis_nor(rs1,rs2,rd) vis_dd2d(0x62, rs1, rs2, rd)
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#define vis_nors(rs1,rs2,rd) vis_ss2s(0x63, rs1, rs2, rd)
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#define vis_and(rs1,rs2,rd) vis_dd2d(0x70, rs1, rs2, rd)
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#define vis_ands(rs1,rs2,rd) vis_ss2s(0x71, rs1, rs2, rd)
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#define vis_nand(rs1,rs2,rd) vis_dd2d(0x6e, rs1, rs2, rd)
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#define vis_nands(rs1,rs2,rd) vis_ss2s(0x6f, rs1, rs2, rd)
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#define vis_xor(rs1,rs2,rd) vis_dd2d(0x6c, rs1, rs2, rd)
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#define vis_xors(rs1,rs2,rd) vis_ss2s(0x6d, rs1, rs2, rd)
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#define vis_xnor(rs1,rs2,rd) vis_dd2d(0x72, rs1, rs2, rd)
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#define vis_xnors(rs1,rs2,rd) vis_ss2s(0x73, rs1, rs2, rd)
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#define vis_ornot1(rs1,rs2,rd) vis_dd2d(0x7a, rs1, rs2, rd)
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#define vis_ornot1s(rs1,rs2,rd) vis_ss2s(0x7b, rs1, rs2, rd)
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#define vis_ornot2(rs1,rs2,rd) vis_dd2d(0x76, rs1, rs2, rd)
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#define vis_ornot2s(rs1,rs2,rd) vis_ss2s(0x77, rs1, rs2, rd)
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#define vis_andnot1(rs1,rs2,rd) vis_dd2d(0x68, rs1, rs2, rd)
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#define vis_andnot1s(rs1,rs2,rd) vis_ss2s(0x69, rs1, rs2, rd)
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#define vis_andnot2(rs1,rs2,rd) vis_dd2d(0x64, rs1, rs2, rd)
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#define vis_andnot2s(rs1,rs2,rd) vis_ss2s(0x65, rs1, rs2, rd)
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/* Pixel component distance. */
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#define vis_pdist(rs1,rs2,rd) vis_dd2d(0x3e, rs1, rs2, rd)
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#endif /* AVCODEC_SPARC_VIS_H */
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