diff options
Diffstat (limited to 'src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h')
| -rw-r--r-- | src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h | 433 |
1 files changed, 0 insertions, 433 deletions
diff --git a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h deleted file mode 100644 index 65d9c774154..00000000000 --- a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h +++ /dev/null @@ -1,433 +0,0 @@ -/* - * (C) Copyright IBM Corporation 2008 - * All Rights Reserved. - * - * Permission is hereby granted, free of charge, to any person obtaining a - * copy of this software and associated documentation files (the "Software"), - * to deal in the Software without restriction, including without limitation - * on the rights to use, copy, modify, merge, publish, distribute, sub - * license, and/or sell copies of the Software, and to permit persons to whom - * the Software is furnished to do so, subject to the following conditions: - * - * The above copyright notice and this permission notice (including the next - * paragraph) shall be included in all copies or substantial portions of the - * Software. - * - * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR - * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, - * FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL - * AUTHORS, COPYRIGHT HOLDERS, AND/OR THEIR SUPPLIERS BE LIABLE FOR ANY CLAIM, - * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR - * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE - * USE OR OTHER DEALINGS IN THE SOFTWARE. - */ - -/** - * \file - * Real-time assembly generation interface for Cell B.E. SPEs. - * For details, see /opt/cell/sdk/docs/arch/SPU_ISA_v1.2_27Jan2007_pub.pdf - * - * \author Ian Romanick <idr@us.ibm.com> - * \author Brian Paul - */ - -#ifndef RTASM_PPC_SPE_H -#define RTASM_PPC_SPE_H - -/** 4 bytes per instruction */ -#define SPE_INST_SIZE 4 - -/** number of general-purpose SIMD registers */ -#define SPE_NUM_REGS 128 - -/** Return Address register (aka $lr / Link Register) */ -#define SPE_REG_RA 0 - -/** Stack Pointer register (aka $sp) */ -#define SPE_REG_SP 1 - - -struct spe_function -{ - uint32_t *store; /**< instruction buffer */ - uint num_inst; - uint max_inst; - - /** - * The "set count" reflects the number of nested register sets - * are allowed. In the unlikely case that we exceed the set count, - * register allocation will start to be confused, which is critical - * enough that we check for it. - */ - unsigned char set_count; - - /** - * Flags for used and unused registers. Each byte corresponds to a - * register; a 0 in that byte means that the register is available. - * A value of 1 means that the register was allocated in the current - * register set. Any other value N means that the register was allocated - * N register sets ago. - * - * \sa - * spe_allocate_register, spe_allocate_available_register, - * spe_allocate_register_set, spe_release_register_set, spe_release_register, - */ - unsigned char regs[SPE_NUM_REGS]; - - boolean print; /**< print/dump instructions as they're emitted? */ - int indent; /**< number of spaces to indent */ -}; - - -extern void spe_init_func(struct spe_function *p, uint code_size); -extern void spe_release_func(struct spe_function *p); -extern uint spe_code_size(const struct spe_function *p); - -extern int spe_allocate_available_register(struct spe_function *p); -extern int spe_allocate_register(struct spe_function *p, int reg); -extern void spe_release_register(struct spe_function *p, int reg); -extern void spe_allocate_register_set(struct spe_function *p); -extern void spe_release_register_set(struct spe_function *p); - -extern uint spe_get_registers_used(const struct spe_function *p, ubyte used[]); - -extern void spe_print_code(struct spe_function *p, boolean enable); -extern void spe_indent(struct spe_function *p, int spaces); -extern void spe_comment(struct spe_function *p, int rel_indent, const char *s); - - -#endif /* RTASM_PPC_SPE_H */ - -#ifndef EMIT -#define EMIT(_name, _op) \ - extern void _name (struct spe_function *p); -#define EMIT_(_name, _op) \ - extern void _name (struct spe_function *p, int rT); -#define EMIT_R(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA); -#define EMIT_RR(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA, int rB); -#define EMIT_RRR(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA, int rB, int rC); -#define EMIT_RI7(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA, int imm); -#define EMIT_RI8(_name, _op, bias) \ - extern void _name (struct spe_function *p, int rT, int rA, int imm); -#define EMIT_RI10(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA, int imm); -#define EMIT_RI10s(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int rA, int imm); -#define EMIT_RI16(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int imm); -#define EMIT_RI18(_name, _op) \ - extern void _name (struct spe_function *p, int rT, int imm); -#define EMIT_I16(_name, _op) \ - extern void _name (struct spe_function *p, int imm); -#define UNDEF_EMIT_MACROS -#endif /* EMIT */ - - -/* Memory load / store instructions - */ -EMIT_RR (spe_lqx, 0x1c4) -EMIT_RI16(spe_lqa, 0x061) -EMIT_RI16(spe_lqr, 0x067) -EMIT_RR (spe_stqx, 0x144) -EMIT_RI16(spe_stqa, 0x041) -EMIT_RI16(spe_stqr, 0x047) -EMIT_RI7 (spe_cbd, 0x1f4) -EMIT_RR (spe_cbx, 0x1d4) -EMIT_RI7 (spe_chd, 0x1f5) -EMIT_RI7 (spe_chx, 0x1d5) -EMIT_RI7 (spe_cwd, 0x1f6) -EMIT_RI7 (spe_cwx, 0x1d6) -EMIT_RI7 (spe_cdd, 0x1f7) -EMIT_RI7 (spe_cdx, 0x1d7) - - -/* Constant formation instructions - */ -EMIT_RI16(spe_ilh, 0x083) -EMIT_RI16(spe_ilhu, 0x082) -EMIT_RI16(spe_il, 0x081) -EMIT_RI18(spe_ila, 0x021) -EMIT_RI16(spe_iohl, 0x0c1) -EMIT_RI16(spe_fsmbi, 0x065) - - - -/* Integer and logical instructions - */ -EMIT_RR (spe_ah, 0x0c8) -EMIT_RI10(spe_ahi, 0x01d) -EMIT_RR (spe_a, 0x0c0) -EMIT_RI10s(spe_ai, 0x01c) -EMIT_RR (spe_sfh, 0x048) -EMIT_RI10(spe_sfhi, 0x00d) -EMIT_RR (spe_sf, 0x040) -EMIT_RI10(spe_sfi, 0x00c) -EMIT_RR (spe_addx, 0x340) -EMIT_RR (spe_cg, 0x0c2) -EMIT_RR (spe_cgx, 0x342) -EMIT_RR (spe_sfx, 0x341) -EMIT_RR (spe_bg, 0x042) -EMIT_RR (spe_bgx, 0x343) -EMIT_RR (spe_mpy, 0x3c4) -EMIT_RR (spe_mpyu, 0x3cc) -EMIT_RI10(spe_mpyi, 0x074) -EMIT_RI10(spe_mpyui, 0x075) -EMIT_RRR (spe_mpya, 0x00c) -EMIT_RR (spe_mpyh, 0x3c5) -EMIT_RR (spe_mpys, 0x3c7) -EMIT_RR (spe_mpyhh, 0x3c6) -EMIT_RR (spe_mpyhha, 0x346) -EMIT_RR (spe_mpyhhu, 0x3ce) -EMIT_RR (spe_mpyhhau, 0x34e) -EMIT_R (spe_clz, 0x2a5) -EMIT_R (spe_cntb, 0x2b4) -EMIT_R (spe_fsmb, 0x1b6) -EMIT_R (spe_fsmh, 0x1b5) -EMIT_R (spe_fsm, 0x1b4) -EMIT_R (spe_gbb, 0x1b2) -EMIT_R (spe_gbh, 0x1b1) -EMIT_R (spe_gb, 0x1b0) -EMIT_RR (spe_avgb, 0x0d3) -EMIT_RR (spe_absdb, 0x053) -EMIT_RR (spe_sumb, 0x253) -EMIT_R (spe_xsbh, 0x2b6) -EMIT_R (spe_xshw, 0x2ae) -EMIT_R (spe_xswd, 0x2a6) -EMIT_RR (spe_and, 0x0c1) -EMIT_RR (spe_andc, 0x2c1) -EMIT_RI10s(spe_andbi, 0x016) -EMIT_RI10s(spe_andhi, 0x015) -EMIT_RI10s(spe_andi, 0x014) -EMIT_RR (spe_or, 0x041) -EMIT_RR (spe_orc, 0x2c9) -EMIT_RI10s(spe_orbi, 0x006) -EMIT_RI10s(spe_orhi, 0x005) -EMIT_RI10s(spe_ori, 0x004) -EMIT_R (spe_orx, 0x1f0) -EMIT_RR (spe_xor, 0x241) -EMIT_RI10s(spe_xorbi, 0x046) -EMIT_RI10s(spe_xorhi, 0x045) -EMIT_RI10s(spe_xori, 0x044) -EMIT_RR (spe_nand, 0x0c9) -EMIT_RR (spe_nor, 0x049) -EMIT_RR (spe_eqv, 0x249) -EMIT_RRR (spe_selb, 0x008) -EMIT_RRR (spe_shufb, 0x00b) - - -/* Shift and rotate instructions - */ -EMIT_RR (spe_shlh, 0x05f) -EMIT_RI7 (spe_shlhi, 0x07f) -EMIT_RR (spe_shl, 0x05b) -EMIT_RI7 (spe_shli, 0x07b) -EMIT_RR (spe_shlqbi, 0x1db) -EMIT_RI7 (spe_shlqbii, 0x1fb) -EMIT_RR (spe_shlqby, 0x1df) -EMIT_RI7 (spe_shlqbyi, 0x1ff) -EMIT_RR (spe_shlqbybi, 0x1cf) -EMIT_RR (spe_roth, 0x05c) -EMIT_RI7 (spe_rothi, 0x07c) -EMIT_RR (spe_rot, 0x058) -EMIT_RI7 (spe_roti, 0x078) -EMIT_RR (spe_rotqby, 0x1dc) -EMIT_RI7 (spe_rotqbyi, 0x1fc) -EMIT_RR (spe_rotqbybi, 0x1cc) -EMIT_RR (spe_rotqbi, 0x1d8) -EMIT_RI7 (spe_rotqbii, 0x1f8) -EMIT_RR (spe_rothm, 0x05d) -EMIT_RI7 (spe_rothmi, 0x07d) -EMIT_RR (spe_rotm, 0x059) -EMIT_RI7 (spe_rotmi, 0x079) -EMIT_RR (spe_rotqmby, 0x1dd) -EMIT_RI7 (spe_rotqmbyi, 0x1fd) -EMIT_RR (spe_rotqmbybi, 0x1cd) -EMIT_RR (spe_rotqmbi, 0x1c9) -EMIT_RI7 (spe_rotqmbii, 0x1f9) -EMIT_RR (spe_rotmah, 0x05e) -EMIT_RI7 (spe_rotmahi, 0x07e) -EMIT_RR (spe_rotma, 0x05a) -EMIT_RI7 (spe_rotmai, 0x07a) - - -/* Compare, branch, and halt instructions - */ -EMIT_RR (spe_heq, 0x3d8) -EMIT_RI10(spe_heqi, 0x07f) -EMIT_RR (spe_hgt, 0x258) -EMIT_RI10(spe_hgti, 0x04f) -EMIT_RR (spe_hlgt, 0x2d8) -EMIT_RI10(spe_hlgti, 0x05f) -EMIT_RR (spe_ceqb, 0x3d0) -EMIT_RI10(spe_ceqbi, 0x07e) -EMIT_RR (spe_ceqh, 0x3c8) -EMIT_RI10(spe_ceqhi, 0x07d) -EMIT_RR (spe_ceq, 0x3c0) -EMIT_RI10(spe_ceqi, 0x07c) -EMIT_RR (spe_cgtb, 0x250) -EMIT_RI10(spe_cgtbi, 0x04e) -EMIT_RR (spe_cgth, 0x248) -EMIT_RI10(spe_cgthi, 0x04d) -EMIT_RR (spe_cgt, 0x240) -EMIT_RI10(spe_cgti, 0x04c) -EMIT_RR (spe_clgtb, 0x2d0) -EMIT_RI10(spe_clgtbi, 0x05e) -EMIT_RR (spe_clgth, 0x2c8) -EMIT_RI10(spe_clgthi, 0x05d) -EMIT_RR (spe_clgt, 0x2c0) -EMIT_RI10(spe_clgti, 0x05c) -EMIT_I16 (spe_br, 0x064) -EMIT_I16 (spe_bra, 0x060) -EMIT_RI16(spe_brsl, 0x066) -EMIT_RI16(spe_brasl, 0x062) -EMIT_RI16(spe_brnz, 0x042) -EMIT_RI16(spe_brz, 0x040) -EMIT_RI16(spe_brhnz, 0x046) -EMIT_RI16(spe_brhz, 0x044) - -/* Control instructions - */ -EMIT (spe_lnop, 0x001) - -extern void -spe_lqd(struct spe_function *p, int rT, int rA, int offset); - -extern void -spe_stqd(struct spe_function *p, int rT, int rA, int offset); - -extern void spe_bi(struct spe_function *p, int rA, int d, int e); -extern void spe_iret(struct spe_function *p, int rA, int d, int e); -extern void spe_bisled(struct spe_function *p, int rT, int rA, - int d, int e); -extern void spe_bisl(struct spe_function *p, int rT, int rA, - int d, int e); -extern void spe_biz(struct spe_function *p, int rT, int rA, - int d, int e); -extern void spe_binz(struct spe_function *p, int rT, int rA, - int d, int e); -extern void spe_bihz(struct spe_function *p, int rT, int rA, - int d, int e); -extern void spe_bihnz(struct spe_function *p, int rT, int rA, - int d, int e); - - -/** Load/splat immediate float into rT. */ -extern void -spe_load_float(struct spe_function *p, int rT, float x); - -/** Load/splat immediate int into rT. */ -extern void -spe_load_int(struct spe_function *p, int rT, int i); - -/** Load/splat immediate unsigned int into rT. */ -extern void -spe_load_uint(struct spe_function *p, int rT, uint ui); - -/** And immediate value into rT. */ -extern void -spe_and_uint(struct spe_function *p, int rT, int rA, uint ui); - -/** Xor immediate value into rT. */ -extern void -spe_xor_uint(struct spe_function *p, int rT, int rA, uint ui); - -/** Compare equal with immediate value. */ -extern void -spe_compare_equal_uint(struct spe_function *p, int rT, int rA, uint ui); - -/** Compare greater with immediate value. */ -extern void -spe_compare_greater_uint(struct spe_function *p, int rT, int rA, uint ui); - -/** Replicate word 0 of rA across rT. */ -extern void -spe_splat(struct spe_function *p, int rT, int rA); - -/** rT = complement_all_bits(rA). */ -extern void -spe_complement(struct spe_function *p, int rT, int rA); - -/** rT = rA. */ -extern void -spe_move(struct spe_function *p, int rT, int rA); - -/** rT = {0,0,0,0}. */ -extern void -spe_zero(struct spe_function *p, int rT); - -/** rT = splat(rA, word) */ -extern void -spe_splat_word(struct spe_function *p, int rT, int rA, int word); - -/** rT = float min(rA, rB) */ -extern void -spe_float_min(struct spe_function *p, int rT, int rA, int rB); - -/** rT = float max(rA, rB) */ -extern void -spe_float_max(struct spe_function *p, int rT, int rA, int rB); - - -/* Floating-point instructions - */ -EMIT_RR (spe_fa, 0x2c4) -EMIT_RR (spe_dfa, 0x2cc) -EMIT_RR (spe_fs, 0x2c5) -EMIT_RR (spe_dfs, 0x2cd) -EMIT_RR (spe_fm, 0x2c6) -EMIT_RR (spe_dfm, 0x2ce) -EMIT_RRR (spe_fma, 0x00e) -EMIT_RR (spe_dfma, 0x35c) -EMIT_RRR (spe_fnms, 0x00d) -EMIT_RR (spe_dfnms, 0x35e) -EMIT_RRR (spe_fms, 0x00f) -EMIT_RR (spe_dfms, 0x35d) -EMIT_RR (spe_dfnma, 0x35f) -EMIT_R (spe_frest, 0x1b8) -EMIT_R (spe_frsqest, 0x1b9) -EMIT_RR (spe_fi, 0x3d4) -EMIT_RI8 (spe_csflt, 0x1da, 155) -EMIT_RI8 (spe_cflts, 0x1d8, 173) -EMIT_RI8 (spe_cuflt, 0x1db, 155) -EMIT_RI8 (spe_cfltu, 0x1d9, 173) -EMIT_R (spe_frds, 0x3b9) -EMIT_R (spe_fesd, 0x3b8) -EMIT_RR (spe_dfceq, 0x3c3) -EMIT_RR (spe_dfcmeq, 0x3cb) -EMIT_RR (spe_dfcgt, 0x2c3) -EMIT_RR (spe_dfcmgt, 0x2cb) -EMIT_RI7 (spe_dftsv, 0x3bf) -EMIT_RR (spe_fceq, 0x3c2) -EMIT_RR (spe_fcmeq, 0x3ca) -EMIT_RR (spe_fcgt, 0x2c2) -EMIT_RR (spe_fcmgt, 0x2ca) -EMIT_R (spe_fscrwr, 0x3ba) -EMIT_ (spe_fscrrd, 0x398) - - -/* Channel instructions - */ -EMIT_R (spe_rdch, 0x00d) -EMIT_R (spe_rdchcnt, 0x00f) -EMIT_R (spe_wrch, 0x10d) - - -#ifdef UNDEF_EMIT_MACROS -#undef EMIT -#undef EMIT_ -#undef EMIT_R -#undef EMIT_RR -#undef EMIT_RRR -#undef EMIT_RI7 -#undef EMIT_RI8 -#undef EMIT_RI10 -#undef EMIT_RI10s -#undef EMIT_RI16 -#undef EMIT_RI18 -#undef EMIT_I16 -#undef UNDEF_EMIT_MACROS -#endif /* EMIT_ */ |