/* * Copyright (c) 1998, 2003, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ /* *---------------------------------------------------------------------- * * Prototypes for the inline templates in vis_32.il (and vis_64.il) * *---------------------------------------------------------------------- */ #ifndef VIS_PROTO_H #define VIS_PROTO_H #include #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ /* Pure edge handling instructions */ int vis_edge8(void * /*frs1*/, void * /*frs2*/); int vis_edge8l(void * /*frs1*/, void * /*frs2*/); int vis_edge16(void * /*frs1*/, void * /*frs2*/); int vis_edge16l(void * /*frs1*/, void * /*frs2*/); int vis_edge32(void * /*frs1*/, void * /*frs2*/); int vis_edge32l(void * /*frs1*/, void * /*frs2*/); /* Edge handling instructions with negative return values if cc set. */ int vis_edge8cc(void * /*frs1*/, void * /*frs2*/); int vis_edge8lcc(void * /*frs1*/, void * /*frs2*/); int vis_edge16cc(void * /*frs1*/, void * /*frs2*/); int vis_edge16lcc(void * /*frs1*/, void * /*frs2*/); int vis_edge32cc(void * /*frs1*/, void * /*frs2*/); int vis_edge32lcc(void * /*frs1*/, void * /*frs2*/); /* Alignment instructions. */ void *vis_alignaddr(void * /*rs1*/, int /*rs2*/); void *vis_alignaddrl(void * /*rs1*/, int /*rs2*/); double vis_faligndata(double /*frs1*/, double /*frs2*/); /* Partitioned comparison instructions. */ int vis_fcmple16(double /*frs1*/, double /*frs2*/); int vis_fcmpne16(double /*frs1*/, double /*frs2*/); int vis_fcmple32(double /*frs1*/, double /*frs2*/); int vis_fcmpne32(double /*frs1*/, double /*frs2*/); int vis_fcmpgt16(double /*frs1*/, double /*frs2*/); int vis_fcmpeq16(double /*frs1*/, double /*frs2*/); int vis_fcmpgt32(double /*frs1*/, double /*frs2*/); int vis_fcmpeq32(double /*frs1*/, double /*frs2*/); /* Partitioned multiplication. */ double vis_fmul8x16_dummy(float /*frs1*/, int /*dummy*/, double /*frs2*/); #ifdef MLIB_OS64BIT double vis_fmul8x16(float /*frs1*/, double /*frs2*/); #else #define vis_fmul8x16(farg,darg) vis_fmul8x16_dummy((farg),0,(darg)) #endif /* MLIB_OS64BIT */ double vis_fmul8x16au(float /*frs1*/, float /*frs2*/); double vis_fmul8x16al(float /*frs1*/, float /*frs2*/); double vis_fmul8sux16(double /*frs1*/, double /*frs2*/); double vis_fmul8ulx16(double /*frs1*/, double /*frs2*/); double vis_fmuld8sux16(float /*frs1*/, float /*frs2*/); double vis_fmuld8ulx16(float /*frs1*/, float /*frs2*/); /* Partitioned addition & subtraction. */ double vis_fpadd16(double /*frs1*/, double /*frs2*/); float vis_fpadd16s(float /*frs1*/, float /*frs2*/); double vis_fpadd32(double /*frs1*/, double /*frs2*/); float vis_fpadd32s(float /*frs1*/, float /*frs2*/); double vis_fpsub16(double /*frs1*/, double /*frs2*/); float vis_fpsub16s(float /*frs1*/, float /*frs2*/); double vis_fpsub32(double /*frs1*/, double /*frs2*/); float vis_fpsub32s(float /*frs1*/, float /*frs2*/); /* Pixel packing & clamping. */ float vis_fpack16(double /*frs2*/); double vis_fpack32(double /*frs1*/, double /*frs2*/); float vis_fpackfix(double /*frs2*/); /* Combined pack ops. */ double vis_fpack16_pair(double /*frs2*/, double /*frs2*/); double vis_fpackfix_pair(double /*frs2*/, double /*frs2*/); void vis_st2_fpack16(double, double, double *); void vis_std_fpack16(double, double, double *); void vis_st2_fpackfix(double, double, double *); double vis_fpack16_to_hi(double /*frs1*/, double /*frs2*/); double vis_fpack16_to_lo(double /*frs1*/, double /*frs2*/); /* Motion estimation. */ #ifdef MLIB_OS64BIT #define vis_pdist(px1,px2,acc) vis_pxldist64(acc,px1,px2) double vis_pxldist64(double accum /*frd*/, double pxls1 /*frs1*/, double pxls2 /*frs2*/); #else double vis_pdist(double /*frs1*/, double /*frs2*/, double /*frd*/); #endif /* MLIB_OS64BIT */ /* Channel merging. */ double vis_fpmerge(float /*frs1*/, float /*frs2*/); /* Pixel expansion. */ double vis_fexpand(float /*frs2*/); double vis_fexpand_hi(double /*frs2*/); double vis_fexpand_lo(double /*frs2*/); /* Bitwise logical operators. */ double vis_fnor(double /*frs1*/, double /*frs2*/); float vis_fnors(float /*frs1*/, float /*frs2*/); double vis_fandnot(double /*frs1*/, double /*frs2*/); float vis_fandnots(float /*frs1*/, float /*frs2*/); double vis_fnot(double /*frs1*/); float vis_fnots(float /*frs1*/); double vis_fxor(double /*frs1*/, double /*frs2*/); float vis_fxors(float /*frs1*/, float /*frs2*/); double vis_fnand(double /*frs1*/, double /*frs2*/); float vis_fnands(float /*frs1*/, float /*frs2*/); double vis_fand(double /*frs1*/, double /*frs2*/); float vis_fands(float /*frs1*/, float /*frs2*/); double vis_fxnor(double /*frs1*/, double /*frs2*/); float vis_fxnors(float /*frs1*/, float /*frs2*/); double vis_fsrc(double /*frs1*/); float vis_fsrcs(float /*frs1*/); double vis_fornot(double /*frs1*/, double /*frs2*/); float vis_fornots(float /*frs1*/, float /*frs2*/); double vis_for(double /*frs1*/, double /*frs2*/); float vis_fors(float /*frs1*/, float /*frs2*/); double vis_fzero(void); float vis_fzeros(void); double vis_fone(void); float vis_fones(void); /* Partial stores. */ void vis_stdfa_ASI_PST8P(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST8PL(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST8S(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST8P_int_pair(void * /*rs1*/, void * /*rs2*/, void * /*rs3*/, int /*rmask*/); void vis_stdfa_ASI_PST16P(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST16PL(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST16S(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST32P(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST32PL(double /*frd*/, void * /*rs1*/, int /*rmask*/); void vis_stdfa_ASI_PST32S(double /*frd*/, void * /*rs1*/, int /*rmask*/); /* Byte & short stores. */ void vis_stdfa_ASI_FL8P(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL8P_index(double /*frd*/, void * /*rs1*/, long /*index*/); void vis_stdfa_ASI_FL8S(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL16P(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL16P_index(double /*frd*/, void * /*rs1*/, long /*index*/); void vis_stdfa_ASI_FL16S(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL8PL(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL8PL_index(double /*frd*/, void * /*rs1*/, long /*index*/); void vis_stdfa_ASI_FL8SL(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL16PL(double /*frd*/, void * /*rs1*/); void vis_stdfa_ASI_FL16PL_index(double /*frd*/, void * /*rs1*/, long /*index*/); void vis_stdfa_ASI_FL16SL(double /*frd*/, void * /*rs1*/); /* Byte & short loads. */ double vis_lddfa_ASI_FL8P(void * /*rs1*/); double vis_lddfa_ASI_FL8P_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_FL8P_hi(void * /*rs1*/, unsigned int /*index*/); double vis_lddfa_ASI_FL8P_lo(void * /*rs1*/, unsigned int /*index*/); double vis_lddfa_ASI_FL8S(void * /*rs1*/); double vis_lddfa_ASI_FL16P(void * /*rs1*/); double vis_lddfa_ASI_FL16P_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_FL16S(void * /*rs1*/); double vis_lddfa_ASI_FL8PL(void * /*rs1*/); double vis_lddfa_ASI_FL8PL_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_FL8SL(void * /*rs1*/); double vis_lddfa_ASI_FL16PL(void * /*rs1*/); double vis_lddfa_ASI_FL16PL_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_FL16SL(void * /*rs1*/); /* Direct read from GSR, write to GSR. */ unsigned int vis_read_gsr32(void); void vis_write_gsr32(unsigned int /*GSR*/); #define vis_write_gsr vis_write_gsr32 #define vis_read_gsr vis_read_gsr32 /* Voxel texture mapping. */ #ifdef MLIB_OS64BIT unsigned long vis_array8(unsigned long /*rs1*/, int /*rs2*/); unsigned long vis_array16(unsigned long /*rs1*/, int /*rs2*/); unsigned long vis_array32(unsigned long /*rs1*/, int /*rs2*/); #elif __STDC__ - 0 == 0 && !defined(_NO_LONGLONG) unsigned long vis_array8(unsigned long long /*rs1*/, int /*rs2*/); unsigned long vis_array16(unsigned long long /*rs1*/, int /*rs2*/); unsigned long vis_array32(unsigned long long /*rs1*/, int /*rs2*/); #endif /* MLIB_OS64BIT */ /* Register aliasing and type casts. */ float vis_read_hi(double /*frs1*/); float vis_read_lo(double /*frs1*/); double vis_write_hi(double /*frs1*/, float /*frs2*/); double vis_write_lo(double /*frs1*/, float /*frs2*/); double vis_freg_pair(float /*frs1*/, float /*frs2*/); float vis_to_float(unsigned int /*value*/); double vis_to_double(unsigned int /*value1*/, unsigned int /*value2*/); double vis_to_double_dup(unsigned int /*value*/); #ifdef MLIB_OS64BIT double vis_ll_to_double(unsigned long /*value*/); #elif __STDC__ - 0 == 0 && !defined(_NO_LONGLONG) double vis_ll_to_double(unsigned long long /*value*/); #endif /* MLIB_OS64BIT */ /* Direct access to ASI. */ /* normal asi = 0x82, big endian = 0x80, little endian = 0x88 */ unsigned int vis_read_asi(void); void vis_write_asi(unsigned int /*ASI*/); /* Big/little endian loads. */ float vis_ldfa_ASI_REG(void * /*rs1*/); /* endian according */ /* to %asi */ float vis_ldfa_ASI_P(void * /*rs1*/); /* big endian */ float vis_ldfa_ASI_P_index(void * /*rs1*/, long /*index*/); /* big endian */ float vis_ldfa_ASI_PL(void * /*rs1*/); /* little endian */ float vis_ldfa_ASI_PL_index(void * /*rs1*/, long /*index*/); /* little endian */ double vis_lddfa_ASI_REG(void * /*rs1*/); /* endian according */ /* to %asi */ double vis_lddfa_ASI_P(void * /*rs1*/); /* big endian */ double vis_lddfa_ASI_P_index(void * /*rs1*/, long /*index*/); /* big endian */ double vis_lddfa_ASI_PL(void * /*rs1*/); /* little endian */ double vis_lddfa_ASI_PL_index(void * /*rs1*/, long /*index*/); /* little endian */ /* Big/little endian stores. */ void vis_stfa_ASI_REG(float /*frs*/, void * /*rs1*/); /* endian according */ /* to %asi */ void vis_stfa_ASI_P(float /*frs*/, void * /*rs1*/); /* big endian */ void vis_stfa_ASI_P_index(float /*frs*/, void * /*rs1*/, long /*index*/); /* big endian */ void vis_stfa_ASI_PL(float /*frs*/, void * /*rs1*/); /* little endian */ void vis_stfa_ASI_PL_index(float /*frs*/, void * /*rs1*/, long /*index*/); /* little endian */ void vis_stdfa_ASI_REG(double /*frd*/, void * /*rs1*/); /* endian according */ /* to %asi */ void vis_stdfa_ASI_P(double /*frd*/, void * /*rs1*/); /* big endian */ void vis_stdfa_ASI_P_index(double /*frd*/, void * /*rs1*/, long /*index*/); /* big endian */ void vis_stdfa_ASI_PL(double /*frd*/, void * /*rs1*/); /* little endian */ void vis_stdfa_ASI_PL_index(double /*frd*/, void * /*rs1*/, long /*index*/); /* little endian */ /* Unsigned short big/little endian loads. */ unsigned short vis_lduha_ASI_REG(void * /*rs1*/); unsigned short vis_lduha_ASI_P(void * /*rs1*/); unsigned short vis_lduha_ASI_PL(void * /*rs1*/); unsigned short vis_lduha_ASI_P_index(void * /*rs1*/, long /*index*/); unsigned short vis_lduha_ASI_PL_index(void * /*rs1*/, long /*index*/); /* Nicknames for explicit ASI loads and stores. */ #define vis_st_u8 vis_stdfa_ASI_FL8P #define vis_st_u8_i vis_stdfa_ASI_FL8P_index #define vis_st_u8_le vis_stdfa_ASI_FL8PL #define vis_st_u8_le_i vis_stdfa_ASI_FL8PL_index #define vis_st_u16 vis_stdfa_ASI_FL16P #define vis_st_u16_i vis_stdfa_ASI_FL16P_index #define vis_st_u16_le vis_stdfa_ASI_FL16PL #define vis_st_u16_le_i vis_stdfa_ASI_FL16PL_index #define vis_ld_u8 vis_lddfa_ASI_FL8P #define vis_ld_u8_i vis_lddfa_ASI_FL8P_index #define vis_ld_u8_le vis_lddfa_ASI_FL8PL #define vis_ld_u8_le_i vis_lddfa_ASI_FL8PL_index #define vis_ld_u16 vis_lddfa_ASI_FL16P #define vis_ld_u16_i vis_lddfa_ASI_FL16P_index #define vis_ld_u16_le vis_lddfa_ASI_FL16PL #define vis_ld_u16_le_i vis_lddfa_ASI_FL16PL_index #define vis_pst_8 vis_stdfa_ASI_PST8P #define vis_pst_16 vis_stdfa_ASI_PST16P #define vis_pst_32 vis_stdfa_ASI_PST32P #define vis_pst_8_le vis_stdfa_ASI_PST8PL #define vis_pst_16_le vis_stdfa_ASI_PST16PL #define vis_pst_32_le vis_stdfa_ASI_PST32PL #define vis_ld_f32_asi vis_ldfa_ASI_REG #define vis_ld_f32 vis_ldfa_ASI_P #define vis_ld_f32_i vis_ldfa_ASI_P_index #define vis_ld_f32_le vis_ldfa_ASI_PL #define vis_ld_f32_le_i vis_ldfa_ASI_PL_index #define vis_ld_d64_asi vis_lddfa_ASI_REG #define vis_ld_d64 vis_lddfa_ASI_P #define vis_ld_d64_i vis_lddfa_ASI_P_index #define vis_ld_d64_le vis_lddfa_ASI_PL #define vis_ld_d64_le_i vis_lddfa_ASI_PL_index #define vis_st_f32_asi vis_stfa_ASI_REG #define vis_st_f32 vis_stfa_ASI_P #define vis_st_f32_i vis_stfa_ASI_P_index #define vis_st_f32_le vis_stfa_ASI_PL #define vis_st_f32_le_i vis_stfa_ASI_PL_index #define vis_st_d64_asi vis_stdfa_ASI_REG #define vis_st_d64 vis_stdfa_ASI_P #define vis_st_d64_i vis_stdfa_ASI_P_index #define vis_st_d64_le vis_stdfa_ASI_PL #define vis_st_d64_le_i vis_stdfa_ASI_PL_index /* "<" and ">=" may be implemented in terms of ">" and "<=". */ #define vis_fcmplt16(a,b) vis_fcmpgt16((b),(a)) #define vis_fcmplt32(a,b) vis_fcmpgt32((b),(a)) #define vis_fcmpge16(a,b) vis_fcmple16((b),(a)) #define vis_fcmpge32(a,b) vis_fcmple32((b),(a)) /* Prefetch */ void vis_prefetch_read(void * /*address*/); void vis_prefetch_write(void * /*address*/); #pragma no_side_effect(vis_prefetch_read) #pragma no_side_effect(vis_prefetch_write) /* Nonfaulting load */ char vis_ldsba_ASI_PNF(void * /*rs1*/); char vis_ldsba_ASI_PNF_index(void * /*rs1*/, long /*index*/); char vis_ldsba_ASI_PNFL(void * /*rs1*/); char vis_ldsba_ASI_PNFL_index(void * /*rs1*/, long /*index*/); unsigned char vis_lduba_ASI_PNF(void * /*rs1*/); unsigned char vis_lduba_ASI_PNF_index(void * /*rs1*/, long /*index*/); unsigned char vis_lduba_ASI_PNFL(void * /*rs1*/); unsigned char vis_lduba_ASI_PNFL_index(void * /*rs1*/, long /*index*/); short vis_ldsha_ASI_PNF(void * /*rs1*/); short vis_ldsha_ASI_PNF_index(void * /*rs1*/, long /*index*/); short vis_ldsha_ASI_PNFL(void * /*rs1*/); short vis_ldsha_ASI_PNFL_index(void * /*rs1*/, long /*index*/); unsigned short vis_lduha_ASI_PNF(void * /*rs1*/); unsigned short vis_lduha_ASI_PNF_index(void * /*rs1*/, long /*index*/); unsigned short vis_lduha_ASI_PNFL(void * /*rs1*/); unsigned short vis_lduha_ASI_PNFL_index(void * /*rs1*/, long /*index*/); int vis_ldswa_ASI_PNF(void * /*rs1*/); int vis_ldswa_ASI_PNF_index(void * /*rs1*/, long /*index*/); int vis_ldswa_ASI_PNFL(void * /*rs1*/); int vis_ldswa_ASI_PNFL_index(void * /*rs1*/, long /*index*/); unsigned int vis_lduwa_ASI_PNF(void * /*rs1*/); unsigned int vis_lduwa_ASI_PNF_index(void * /*rs1*/, long /*index*/); unsigned int vis_lduwa_ASI_PNFL(void * /*rs1*/); unsigned int vis_lduwa_ASI_PNFL_index(void * /*rs1*/, long /*index*/); #ifdef MLIB_OS64BIT long vis_ldxa_ASI_PNF(void * /*rs1*/); long vis_ldxa_ASI_PNF_index(void * /*rs1*/, long /*index*/); long vis_ldxa_ASI_PNFL(void * /*rs1*/); long vis_ldxa_ASI_PNFL_index(void * /*rs1*/, long /*index*/); #elif __STDC__ - 0 == 0 && !defined(_NO_LONGLONG) long long vis_ldda_ASI_PNF(void * /*rs1*/); long long vis_ldda_ASI_PNF_index(void * /*rs1*/, long /*index*/); long long vis_ldda_ASI_PNFL(void * /*rs1*/); long long vis_ldda_ASI_PNFL_index(void * /*rs1*/, long /*index*/); #endif /* MLIB_OS64BIT */ float vis_ldfa_ASI_PNF(void * /*rs1*/); float vis_ldfa_ASI_PNF_index(void * /*rs1*/, long /*index*/); float vis_ldfa_ASI_PNFL(void * /*rs1*/); float vis_ldfa_ASI_PNFL_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_PNF(void * /*rs1*/); double vis_lddfa_ASI_PNF_index(void * /*rs1*/, long /*index*/); double vis_lddfa_ASI_PNFL(void * /*rs1*/); double vis_lddfa_ASI_PNFL_index(void * /*rs1*/, long /*index*/); #define vis_ld_s8_nf vis_ldsba_ASI_PNF #define vis_ld_s8_nf_i vis_ldsba_ASI_PNF_index #define vis_ld_s8_nf_le vis_ldsba_ASI_PNFL #define vis_ld_s8_nf_le_i vis_ldsba_ASI_PNFL_index #define vis_ld_u8_nf vis_lduba_ASI_PNF #define vis_ld_u8_nf_i vis_lduba_ASI_PNF_index #define vis_ld_u8_nf_le vis_lduba_ASI_PNFL #define vis_ld_u8_nf_le_i vis_lduba_ASI_PNFL_index #define vis_ld_s16_nf vis_ldsha_ASI_PNF #define vis_ld_s16_nf_i vis_ldsha_ASI_PNF_index #define vis_ld_s16_nf_le vis_ldsha_ASI_PNFL #define vis_ld_s16_nf_le_i vis_ldsha_ASI_PNFL_index #define vis_ld_u16_nf vis_lduha_ASI_PNF #define vis_ld_u16_nf_i vis_lduha_ASI_PNF_index #define vis_ld_u16_nf_le vis_lduha_ASI_PNFL #define vis_ld_u16_nf_le_i vis_lduha_ASI_PNFL_index #define vis_ld_s32_nf vis_ldswa_ASI_PNF #define vis_ld_s32_nf_i vis_ldswa_ASI_PNF_index #define vis_ld_s32_nf_le vis_ldswa_ASI_PNFL #define vis_ld_s32_nf_le_i vis_ldswa_ASI_PNFL_index #define vis_ld_u32_nf vis_lduwa_ASI_PNF #define vis_ld_u32_nf_i vis_lduwa_ASI_PNF_index #define vis_ld_u32_nf_le vis_lduwa_ASI_PNFL #define vis_ld_u32_nf_le_i vis_lduwa_ASI_PNFL_index #ifdef MLIB_OS64BIT #define vis_ld_s64_nf vis_ldxa_ASI_PNF #define vis_ld_s64_nf_i vis_ldxa_ASI_PNF_index #define vis_ld_s64_nf_le vis_ldxa_ASI_PNFL #define vis_ld_s64_nf_le_i vis_ldxa_ASI_PNFL_index #define vis_ld_u64_nf vis_ldxa_ASI_PNF #define vis_ld_u64_nf_i vis_ldxa_ASI_PNF_index #define vis_ld_u64_nf_le vis_ldxa_ASI_PNFL #define vis_ld_u64_nf_le_i vis_ldxa_ASI_PNFL_index #elif __STDC__ - 0 == 0 && !defined(_NO_LONGLONG) #define vis_ld_s64_nf vis_ldda_ASI_PNF #define vis_ld_s64_nf_i vis_ldda_ASI_PNF_index #define vis_ld_s64_nf_le vis_ldda_ASI_PNFL #define vis_ld_s64_nf_le_i vis_ldda_ASI_PNFL_index #define vis_ld_u64_nf vis_ldda_ASI_PNF #define vis_ld_u64_nf_i vis_ldda_ASI_PNF_index #define vis_ld_u64_nf_le vis_ldda_ASI_PNFL #define vis_ld_u64_nf_le_i vis_ldda_ASI_PNFL_index #endif /* MLIB_OS64BIT */ #define vis_ld_f32_nf vis_ldfa_ASI_PNF #define vis_ld_f32_nf_i vis_ldfa_ASI_PNF_index #define vis_ld_f32_nf_le vis_ldfa_ASI_PNFL #define vis_ld_f32_nf_le_i vis_ldfa_ASI_PNFL_index #define vis_ld_d64_nf vis_lddfa_ASI_PNF #define vis_ld_d64_nf_i vis_lddfa_ASI_PNF_index #define vis_ld_d64_nf_le vis_lddfa_ASI_PNFL #define vis_ld_d64_nf_le_i vis_lddfa_ASI_PNFL_index #if VIS >= 0x200 /* Edge handling instructions which do not set the integer condition codes */ int vis_edge8n(void * /*rs1*/, void * /*rs2*/); int vis_edge8ln(void * /*rs1*/, void * /*rs2*/); int vis_edge16n(void * /*rs1*/, void * /*rs2*/); int vis_edge16ln(void * /*rs1*/, void * /*rs2*/); int vis_edge32n(void * /*rs1*/, void * /*rs2*/); int vis_edge32ln(void * /*rs1*/, void * /*rs2*/); #define vis_edge8 vis_edge8n #define vis_edge8l vis_edge8ln #define vis_edge16 vis_edge16n #define vis_edge16l vis_edge16ln #define vis_edge32 vis_edge32n #define vis_edge32l vis_edge32ln /* Byte mask and shuffle instructions */ void vis_write_bmask(unsigned int /*rs1*/, unsigned int /*rs2*/); double vis_bshuffle(double /*frs1*/, double /*frs2*/); /* Graphics status register */ unsigned int vis_read_bmask(void); #ifdef MLIB_OS64BIT unsigned long vis_read_gsr64(void); void vis_write_gsr64(unsigned long /* GSR */); #elif __STDC__ - 0 == 0 && !defined(_NO_LONGLONG) unsigned long long vis_read_gsr64(void); void vis_write_gsr64(unsigned long long /* GSR */); #endif /* MLIB_OS64BIT */ #endif /* VIS >= 0x200 */ #ifdef __cplusplus } // End of extern "C" #endif /* __cplusplus */ #endif /* VIS_PROTO_H */