/* src/vm/jit/powerpc/linux/md-abi.c - functions for PowerPC Linux ABI Copyright (C) 1996-2005, 2006, 2007, 2008 CACAOVM - Verein zur Foerderung der freien virtuellen Maschine CACAO This file is part of CACAO. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program 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 for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include #include #include "vm/jit/powerpc/linux/md-abi.h" #include "vm/global.h" #include "vm/jit/abi.h" #include "vm/jit/stack.h" #include "vmcore/descriptor.h" /* register descripton arrays *************************************************/ int nregdescint[] = { /* zero, sp, NO(sys), a0/v0, a1/v1, a2, a3, a4, */ REG_RES, REG_RES, REG_RES, REG_ARG, REG_ARG, REG_ARG, REG_ARG, REG_ARG, /* a5, a6, a7, itmp1, itmp2, pv, s0, s1, */ REG_ARG, REG_ARG, REG_ARG, REG_RES, REG_RES, REG_RES, REG_SAV, REG_SAV, /*itmp3, t0, t1, t2, t3, t4, t5, t6, */ REG_RES, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, /* s2, s3, s4, s5, s6, s7, s8, s9, */ REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_END }; const char *abi_registers_integer_name[] = { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31", }; const int abi_registers_integer_argument[] = { 3, /* a0 */ 4, /* a1 */ 5, /* a2 */ 6, /* a3 */ 7, /* a4 */ 8, /* a5 */ 9, /* a6 */ 10, /* a7 */ }; const int abi_registers_integer_saved[] = { 14, /* s0 */ 15, /* s1 */ 24, /* s2 */ 25, /* s3 */ 26, /* s4 */ 27, /* s5 */ 28, /* s6 */ 29, /* s7 */ 30, /* s8 */ 31, /* s9 */ }; const int abi_registers_integer_temporary[] = { 17, /* t0 */ 18, /* t1 */ 19, /* t2 */ 20, /* t3 */ 21, /* t4 */ 22, /* t5 */ 23, /* t6 */ }; int nregdescfloat[] = { /*ftmp3, fa0/v0, fa1, fa2, fa3, fa4, fa5, fa6, */ REG_RES, REG_ARG, REG_ARG, REG_ARG, REG_ARG, REG_ARG, REG_ARG, REG_ARG, /* fa7, ft0, ft1, ft2, ft3, ft4, fs0, fs1, */ REG_ARG, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_SAV, REG_SAV, /*ftmp1, ftmp2, ft5, ft6, ft7, ft8, ft9, ft10, */ REG_RES, REG_RES, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, REG_TMP, /* fs2, fs3, fs4, fs5, fs6, fs7, fs8, fs9 */ REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_SAV, REG_END }; const int abi_registers_float_argument[] = { 1, /* fa0 */ 2, /* fa1 */ 3, /* fa2 */ 4, /* fa3 */ 5, /* fa4 */ 6, /* fa5 */ 7, /* fa6 */ 8, /* fa7 */ }; const int abi_registers_float_saved[] = { 14, /* fs0 */ 15, /* fs1 */ 24, /* fs2 */ 25, /* fs3 */ 26, /* fs4 */ 27, /* fs5 */ 28, /* fs6 */ 29, /* fs7 */ 30, /* fs8 */ 31, /* fs9 */ }; const int abi_registers_float_temporary[] = { 9, /* ft0 */ 10, /* ft1 */ 11, /* ft2 */ 12, /* ft3 */ 13, /* ft4 */ 18, /* ft5 */ 19, /* ft6 */ 20, /* ft7 */ 21, /* ft8 */ 22, /* ft9 */ 23, /* ft10 */ }; /* md_param_alloc ************************************************************** Allocate Arguments to Stackslots according the Calling Conventions --- in md->paramcount: Number of arguments for this method md->paramtypes[].type: Argument types --- out md->params[].inmemory: Argument spilled on stack md->params[].regoff: Stack offset or rd->arg[int|flt]regs index md->memuse: Stackslots needed for argument spilling md->argintreguse: max number of integer arguments used md->argfltreguse: max number of float arguments used *******************************************************************************/ void md_param_alloc(methoddesc *md) { paramdesc *pd; int i; int iarg; int farg; int stacksize; /* set default values */ iarg = 0; farg = 0; stacksize = LA_SIZE_IN_POINTERS; /* get params field of methoddesc */ pd = md->params; for (i = 0; i < md->paramcount; i++, pd++) { switch (md->paramtypes[i].type) { case TYPE_INT: case TYPE_ADR: if (iarg < INT_ARG_CNT) { pd->inmemory = false; pd->index = iarg; pd->regoff = abi_registers_integer_argument[iarg]; iarg++; } else { pd->inmemory = true; pd->index = stacksize; pd->regoff = stacksize * 8; stacksize++; } break; case TYPE_LNG: if (iarg < INT_ARG_CNT - 1) { ALIGN_2(iarg); pd->inmemory = false; pd->index = PACK_REGS(iarg + 1, iarg); pd->regoff = PACK_REGS(abi_registers_integer_argument[iarg + 1], abi_registers_integer_argument[iarg]); iarg += 2; } else { pd->inmemory = true; pd->index = stacksize; pd->regoff = stacksize * 8; iarg = INT_ARG_CNT; stacksize++; } break; case TYPE_FLT: case TYPE_DBL: if (farg < FLT_ARG_CNT) { pd->inmemory = false; pd->index = farg; pd->regoff = abi_registers_float_argument[farg]; farg++; } else { pd->inmemory = true; pd->index = stacksize; pd->regoff = stacksize * 8; stacksize++; } break; default: assert(0); } } /* Since R3/R4, F1 (==A0/A1, A0) are used for passing return values, this argument register usage has to be regarded, too. */ if (IS_INT_LNG_TYPE(md->returntype.type)) { if (iarg < (IS_2_WORD_TYPE(md->returntype.type) ? 2 : 1)) iarg = IS_2_WORD_TYPE(md->returntype.type) ? 2 : 1; } else { if (IS_FLT_DBL_TYPE(md->returntype.type)) if (farg < 1) farg = 1; } /* fill register and stack usage */ md->argintreguse = iarg; md->argfltreguse = farg; md->memuse = stacksize; } /* md_param_alloc_native ******************************************************* Pre-allocate arguments according the native ABI. *******************************************************************************/ void md_param_alloc_native(methoddesc *md) { paramdesc *pd; int i; int iarg; int farg; int stacksize; /* set default values */ iarg = 0; farg = 0; stacksize = LA_SIZE_IN_POINTERS; /* get params field of methoddesc */ pd = md->params; for (i = 0; i < md->paramcount; i++, pd++) { switch (md->paramtypes[i].type) { case TYPE_INT: case TYPE_ADR: if (iarg < INT_ARG_CNT) { pd->inmemory = false; pd->regoff = abi_registers_integer_argument[iarg]; iarg++; } else { pd->inmemory = true; pd->regoff = stacksize * 4; stacksize++; } break; case TYPE_LNG: if (iarg < INT_ARG_CNT - 1) { ALIGN_2(iarg); pd->inmemory = false; pd->regoff = PACK_REGS(abi_registers_integer_argument[iarg + 1], abi_registers_integer_argument[iarg]); iarg += 2; } else { ALIGN_2(stacksize); pd->inmemory = true; pd->regoff = stacksize * 4; iarg = INT_ARG_CNT; stacksize += 2; } break; case TYPE_FLT: if (farg < FLT_ARG_CNT) { pd->inmemory = false; pd->regoff = abi_registers_float_argument[farg]; farg++; } else { pd->inmemory = true; pd->regoff = stacksize * 4; stacksize++; } break; case TYPE_DBL: if (farg < FLT_ARG_CNT) { pd->inmemory = false; pd->regoff = abi_registers_float_argument[farg]; farg++; } else { ALIGN_2(stacksize); pd->inmemory = true; pd->regoff = stacksize * 4; stacksize += 2; } break; default: assert(0); } } /* Since R3/R4, F1 (==A0/A1, A0) are used for passing return values, this argument register usage has to be regarded, too. */ if (IS_INT_LNG_TYPE(md->returntype.type)) { if (iarg < (IS_2_WORD_TYPE(md->returntype.type) ? 2 : 1)) iarg = IS_2_WORD_TYPE(md->returntype.type) ? 2 : 1; } else { if (IS_FLT_DBL_TYPE(md->returntype.type)) if (farg < 1) farg = 1; } /* fill register and stack usage */ md->argintreguse = iarg; md->argfltreguse = farg; md->memuse = stacksize; } /* md_return_alloc ************************************************************* Precolor the Java Stackelement containing the Return Value, if possible. (R3==a00 for int/adr, R4/R3 == a01/a00 for long, F1==a00 for float/double) --- in jd: jitdata of the current method stackslot: Java Stackslot to contain the Return Value --- out if precoloring was possible: VAR(stackslot->varnum)->flags = PREALLOC ->regoff = [REG_RESULT|REG_FRESULT] rd->arg[flt|int]reguse set to a value according the register usage NOTE: Do not pass a LOCALVAR in stackslot->varnum. *******************************************************************************/ void md_return_alloc(jitdata *jd, stackelement_t *stackslot) { methodinfo *m; codeinfo *code; registerdata *rd; methoddesc *md; varinfo *v; /* get required compiler data */ m = jd->m; code = jd->code; rd = jd->rd; md = m->parseddesc; /* In Leafmethods Local Vars holding parameters are precolored to their argument register -> so leafmethods with paramcount > 0 could already use R3 == a00! */ if (!code_is_leafmethod(code) || (md->paramcount == 0)) { /* Only precolor the stackslot, if it is not a SAVEDVAR <-> has not to survive method invokations. */ if (!(stackslot->flags & SAVEDVAR)) { v = VAR(stackslot->varnum); v->flags = PREALLOC; switch (md->returntype.type) { case TYPE_INT: case TYPE_ADR: if (rd->argintreguse < 1) rd->argintreguse = 1; v->vv.regoff = REG_RESULT; break; case TYPE_LNG: if (rd->argintreguse < 2) rd->argintreguse = 2; v->vv.regoff = REG_RESULT_PACKED; break; case TYPE_FLT: case TYPE_DBL: if (rd->argfltreguse < 1) rd->argfltreguse = 1; v->vv.regoff = REG_FRESULT; break; } } } } /* * These are local overrides for various environment variables in Emacs. * Please do not remove this and leave it at the end of the file, where * Emacs will automagically detect them. * --------------------------------------------------------------------- * Local variables: * mode: c * indent-tabs-mode: t * c-basic-offset: 4 * tab-width: 4 * End: */