/* src/vm/jit/arm/codegen.c - machine code generator for Arm Copyright (C) 1996-2011 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/types.h" #include "md-abi.h" #include "vm/jit/arm/arch.h" #include "vm/jit/arm/codegen.h" #include "mm/memory.hpp" #include "native/localref.hpp" #include "native/native.hpp" #include "threads/lock.hpp" #include "vm/jit/builtin.hpp" #include "vm/exceptions.hpp" #include "vm/global.h" #include "vm/loader.hpp" #include "vm/options.h" #include "vm/vm.hpp" #include "vm/jit/abi.h" #include "vm/jit/asmpart.h" #include "vm/jit/codegen-common.hpp" #include "vm/jit/dseg.h" #include "vm/jit/emit-common.hpp" #include "vm/jit/jit.hpp" #include "vm/jit/linenumbertable.hpp" #include "vm/jit/methodheader.h" #include "vm/jit/parse.hpp" #include "vm/jit/patcher-common.hpp" #include "vm/jit/reg.h" /** * Generates machine code for the method prolog. */ void codegen_emit_prolog(jitdata* jd) { varinfo* var; methoddesc* md; int32_t s1; int32_t t, len; int32_t varindex; int i; // Get required compiler data. methodinfo* m = jd->m; codeinfo* code = jd->code; codegendata* cd = jd->cd; registerdata* rd = jd->rd; int32_t savedregs_num = 0; uint32_t savedregs_bitmask = 0; if (!code_is_leafmethod(code)) { savedregs_num++; savedregs_bitmask = (1<= rd->savintreguse; i--) { savedregs_num++; savedregs_bitmask |= (1<<(rd->savintregs[i])); } #if !defined(NDEBUG) for (i = FLT_SAV_CNT - 1; i >= rd->savfltreguse; i--) { vm_abort("codegen_emit_prolog: Floating-point callee saved registers are not saved to stack"); } #endif /* save return address and used callee saved registers */ if (savedregs_bitmask != 0) M_STMFD(savedregs_bitmask, REG_SP); /* create additional stack frame for spilled variables (if necessary) */ int32_t additional_bytes = (cd->stackframesize * 8 - savedregs_num * 4); if (additional_bytes > 0) M_SUB_IMM_EXT_MUL4(REG_SP, REG_SP, additional_bytes / 4); /* take arguments out of register or stack frame */ md = m->parseddesc; for (i = 0, len = 0; i < md->paramcount; i++) { s1 = md->params[i].regoff; t = md->paramtypes[i].type; varindex = jd->local_map[len * 5 + t]; len += (IS_2_WORD_TYPE(t)) ? 2 : 1; /* 2 word type arguments */ if (varindex == UNUSED) continue; var = VAR(varindex); /* ATTENTION: we use interger registers for all arguments (even float) */ #if !defined(ENABLE_SOFTFLOAT) if (IS_INT_LNG_TYPE(t)) { #endif if (!md->params[i].inmemory) { if (!(var->flags & INMEMORY)) { if (IS_2_WORD_TYPE(t)) M_LNGMOVE(s1, var->vv.regoff); else M_INTMOVE(s1, var->vv.regoff); } else { if (IS_2_WORD_TYPE(t)) M_LST(s1, REG_SP, var->vv.regoff); else M_IST(s1, REG_SP, var->vv.regoff); } } else { /* stack arguments */ if (!(var->flags & INMEMORY)) { /* stack arg -> register */ if (IS_2_WORD_TYPE(t)) M_LLD(var->vv.regoff, REG_SP, cd->stackframesize * 8 + s1); else M_ILD(var->vv.regoff, REG_SP, cd->stackframesize * 8 + s1); } else { /* stack arg -> spilled */ /* Reuse Memory Position on Caller Stack */ var->vv.regoff = cd->stackframesize * 8 + s1; } } #if !defined(ENABLE_SOFTFLOAT) } else { if (!md->params[i].inmemory) { if (!(var->flags & INMEMORY)) { if (IS_2_WORD_TYPE(t)) M_CAST_L2D(s1, var->vv.regoff); else M_CAST_I2F(s1, var->vv.regoff); } else { if (IS_2_WORD_TYPE(t)) M_LST(s1, REG_SP, var->vv.regoff); else M_IST(s1, REG_SP, var->vv.regoff); } } else { if (!(var->flags & INMEMORY)) { if (IS_2_WORD_TYPE(t)) M_DLD(var->vv.regoff, REG_SP, cd->stackframesize * 8 + s1); else M_FLD(var->vv.regoff, REG_SP, cd->stackframesize * 8 + s1); } else { /* Reuse Memory Position on Caller Stack */ var->vv.regoff = cd->stackframesize * 8 + s1; } } } #endif /* !defined(ENABLE_SOFTFLOAT) */ } } /** * Generates machine code for the method epilog. */ void codegen_emit_epilog(jitdata* jd) { int i; // Get required compiler data. codeinfo* code = jd->code; codegendata* cd = jd->cd; registerdata* rd = jd->rd; int32_t savedregs_num = 0; uint32_t savedregs_bitmask = 0; if (!code_is_leafmethod(code)) { savedregs_num++; savedregs_bitmask = (1<= rd->savintreguse; i--) { savedregs_num++; savedregs_bitmask |= (1<<(rd->savintregs[i])); } /* deallocate stackframe for spilled variables */ int32_t additional_bytes = (cd->stackframesize * 8 - savedregs_num * 4); if (additional_bytes > 0) M_ADD_IMM_EXT_MUL4(REG_SP, REG_SP, additional_bytes / 4); /* restore callee saved registers + do return */ if (savedregs_bitmask) { if (!code_is_leafmethod(code)) { savedregs_bitmask &= ~(1<cd; /* the big switch */ switch (iptr->opc) { /* constant operations ************************************************/ case ICMD_ACONST: /* ... ==> ..., constant */ d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); if (INSTRUCTION_IS_UNRESOLVED(iptr)) { disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_classinfo, iptr->sx.val.c.ref, disp); M_DSEG_LOAD(d, disp); } else { ICONST(d, (u4) iptr->sx.val.anyptr); } emit_store_dst(jd, iptr, d); break; case ICMD_FCONST: /* ... ==> ..., constant */ #if defined(ENABLE_SOFTFLOAT) d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); ICONST(d, iptr->sx.val.i); emit_store_dst(jd, iptr, d); #else d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); FCONST(d, iptr->sx.val.f); emit_store_dst(jd, iptr, d); #endif break; case ICMD_DCONST: /* ... ==> ..., constant */ #if defined(ENABLE_SOFTFLOAT) d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); LCONST(d, iptr->sx.val.l); emit_store_dst(jd, iptr, d); #else d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); DCONST(d, iptr->sx.val.d); emit_store_dst(jd, iptr, d); #endif break; /* integer operations *************************************************/ case ICMD_INT2BYTE: /* ..., value ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV(d, REG_LSL(s1, 24)); M_MOV(d, REG_ASR(d, 24)); emit_store_dst(jd, iptr, d); break; case ICMD_INT2CHAR: /* ..., value ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV(d, REG_LSL(s1, 16)); M_MOV(d, REG_LSR(d, 16)); /* ATTENTION: char is unsigned */ emit_store_dst(jd, iptr, d); break; case ICMD_INT2SHORT: /* ..., value ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV(d, REG_LSL(s1, 16)); M_MOV(d, REG_ASR(d, 16)); emit_store_dst(jd, iptr, d); break; case ICMD_I2L: /* ..., value ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_INTMOVE(s1, GET_LOW_REG(d)); M_MOV(GET_HIGH_REG(d), REG_ASR(s1, 31)); emit_store_dst(jd, iptr, d); break; case ICMD_L2I: /* ..., value ==> ..., value */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_INTMOVE(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_INEG: /* ..., value ==> ..., - value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_RSB_IMM(d, s1, 0); emit_store_dst(jd, iptr, d); break; case ICMD_LNEG: /* ..., value ==> ..., - value */ s1 = emit_load_s1(jd, iptr, REG_ITMP12_PACKED); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_RSB_IMMS(GET_LOW_REG(d), GET_LOW_REG(s1), 0); M_RSC_IMM(GET_HIGH_REG(d), GET_HIGH_REG(s1), 0); emit_store_dst(jd, iptr, d); break; case ICMD_IADD: /* ..., val1, val2 ==> ..., val1 + val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_ADD(d, s1, s2); emit_store_dst(jd, iptr, d); break; case ICMD_LADD: /* ..., val1, val2 ==> ..., val1 + val2 */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP3); s2 = emit_load_s2_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_ADD_S(GET_LOW_REG(d), s1, s2); s1 = emit_load_s1_high(jd, iptr, REG_ITMP3); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_ADC(GET_HIGH_REG(d), s1, s2); emit_store_dst(jd, iptr, d); break; case ICMD_IADDCONST: case ICMD_IINC: s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); if (IS_IMM(iptr->sx.val.i)) { M_ADD_IMM(d, s1, iptr->sx.val.i); } else if (IS_IMM(-iptr->sx.val.i)) { M_SUB_IMM(d, s1, (-iptr->sx.val.i)); } else { ICONST(REG_ITMP3, iptr->sx.val.i); M_ADD(d, s1, REG_ITMP3); } emit_store_dst(jd, iptr, d); break; case ICMD_LADDCONST: /* ..., value ==> ..., value + constant */ /* sx.val.l = constant */ s3 = iptr->sx.val.l & 0xffffffff; s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); if (IS_IMM(s3)) M_ADD_IMMS(GET_LOW_REG(d), s1, s3); else { ICONST(REG_ITMP3, s3); M_ADD_S(GET_LOW_REG(d), s1, REG_ITMP3); } s3 = iptr->sx.val.l >> 32; s1 = emit_load_s1_high(jd, iptr, REG_ITMP2); if (IS_IMM(s3)) M_ADC_IMM(GET_HIGH_REG(d), s1, s3); else { ICONST(REG_ITMP3, s3); M_ADC(GET_HIGH_REG(d), s1, REG_ITMP3); } emit_store_dst(jd, iptr, d); break; case ICMD_ISUB: /* ..., val1, val2 ==> ..., val1 - val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_SUB(d, s1, s2); emit_store_dst(jd, iptr, d); break; case ICMD_LSUB: /* ..., val1, val2 ==> ..., val1 - val2 */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP3); s2 = emit_load_s2_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_SUB_S(GET_LOW_REG(d), s1, s2); s1 = emit_load_s1_high(jd, iptr, REG_ITMP3); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_SBC(GET_HIGH_REG(d), s1, s2); emit_store_dst(jd, iptr, d); break; case ICMD_ISUBCONST: /* ..., value ==> ..., value + constant */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); if (IS_IMM(iptr->sx.val.i)) M_SUB_IMM(d, s1, iptr->sx.val.i); else { ICONST(REG_ITMP3, iptr->sx.val.i); M_SUB(d, s1, REG_ITMP3); } emit_store_dst(jd, iptr, d); break; case ICMD_LSUBCONST: /* ..., value ==> ..., value - constant */ /* sx.val.l = constant */ s3 = iptr->sx.val.l & 0xffffffff; s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); if (IS_IMM(s3)) M_SUB_IMMS(GET_LOW_REG(d), s1, s3); else { ICONST(REG_ITMP3, s3); M_SUB_S(GET_LOW_REG(d), s1, REG_ITMP3); } s3 = iptr->sx.val.l >> 32; s1 = emit_load_s1_high(jd, iptr, REG_ITMP2); if (IS_IMM(s3)) M_SBC_IMM(GET_HIGH_REG(d), s1, s3); else { ICONST(REG_ITMP3, s3); M_SBC(GET_HIGH_REG(d), s1, REG_ITMP3); } emit_store_dst(jd, iptr, d); break; case ICMD_IMUL: /* ..., val1, val2 ==> ..., val1 * val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_MUL(d, s1, s2); emit_store_dst(jd, iptr, d); break; case ICMD_IDIV: /* ..., val1, val2 ==> ..., val1 / val2 */ case ICMD_IREM: /* ..., val1, val2 ==> ..., val1 % val2 */ s1 = emit_load_s1(jd, iptr, REG_A0); s2 = emit_load_s2(jd, iptr, REG_A1); emit_arithmetic_check(cd, iptr, s2); /* move arguments into argument registers */ M_INTMOVE(s1, REG_A0); M_INTMOVE(s2, REG_A1); /* call builtin function */ bte = iptr->sx.s23.s3.bte; disp = dseg_add_functionptr(cd, bte->fp); M_DSEG_BRANCH(disp); /* recompute pv */ emit_recompute_pv(cd); /* move result into destination register */ d = codegen_reg_of_dst(jd, iptr, REG_RESULT); M_INTMOVE(REG_RESULT, d); emit_store_dst(jd, iptr, d); break; case ICMD_LDIV: /* ..., val1, val2 ==> ..., val1 / val2 */ case ICMD_LREM: /* ..., val1, val2 ==> ..., val1 % val2 */ /* move arguments into argument registers */ s1 = emit_load_s1(jd, iptr, REG_A0_A1_PACKED); s2 = emit_load_s2(jd, iptr, REG_A2_A3_PACKED); /* XXX TODO: only do this if arithmetic check is really done! */ M_ORR(GET_HIGH_REG(s2), GET_LOW_REG(s2), REG_ITMP3); emit_arithmetic_check(cd, iptr, REG_ITMP3); M_LNGMOVE(s1, REG_A0_A1_PACKED); M_LNGMOVE(s2, REG_A2_A3_PACKED); /* call builtin function */ bte = iptr->sx.s23.s3.bte; disp = dseg_add_functionptr(cd, bte->fp); M_DSEG_BRANCH(disp); /* recompute pv */ emit_recompute_pv(cd); /* move result into destination register */ d = codegen_reg_of_dst(jd, iptr, REG_RESULT_PACKED); M_LNGMOVE(REG_RESULT_PACKED, d); emit_store_dst(jd, iptr, d); break; case ICMD_IMULPOW2: /* ..., value ==> ..., value * (2 ^ constant) */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV(d, REG_LSL(s1, iptr->sx.val.i)); emit_store_dst(jd, iptr, d); break; case ICMD_IDIVPOW2: /* ..., value ==> ..., value / (2 ^ constant) */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); /* this rounds towards 0 as java likes it */ M_MOV(REG_ITMP3, REG_ASR(s1, 31)); M_ADD(REG_ITMP3, s1, REG_LSR(REG_ITMP3, 32 - iptr->sx.val.i)); M_MOV(d, REG_ASR(REG_ITMP3, iptr->sx.val.i)); /* this rounds towards nearest, not java style */ /*M_MOV_S(d, REG_ASR(s1, iptr->sx.val.i)); M_ADCMI_IMM(d, d, 0);*/ emit_store_dst(jd, iptr, d); break; case ICMD_IREMPOW2: /* ..., value ==> ..., value % constant */ /* sx.val.i = constant [ (2 ^ x) - 1 ] */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV_S(REG_ITMP1, s1); M_RSBMI_IMM(REG_ITMP1, REG_ITMP1, 0); if (IS_IMM(iptr->sx.val.i)) M_AND_IMM(REG_ITMP1, iptr->sx.val.i, d); else { ICONST(REG_ITMP3, iptr->sx.val.i); M_AND(REG_ITMP1, REG_ITMP3, d); } M_RSBMI_IMM(d, d, 0); emit_store_dst(jd, iptr, d); break; case ICMD_ISHL: /* ..., val1, val2 ==> ..., val1 << val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_AND_IMM(s2, 0x1f, REG_ITMP2); M_MOV(d, REG_LSL_REG(s1, REG_ITMP2)); emit_store_dst(jd, iptr, d); break; case ICMD_ISHR: /* ..., val1, val2 ==> ..., val1 >> val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_AND_IMM(s2, 0x1f, REG_ITMP2); M_MOV(d, REG_ASR_REG(s1, REG_ITMP2)); emit_store_dst(jd, iptr, d); break; case ICMD_IUSHR: /* ..., val1, val2 ==> ..., val1 >>> val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_AND_IMM(s2, 0x1f, REG_ITMP2); M_MOV(d, REG_LSR_REG(s1, REG_ITMP2)); emit_store_dst(jd, iptr, d); break; case ICMD_ISHLCONST: /* ..., value ==> ..., value << constant */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); M_MOV(d, REG_LSL(s1, iptr->sx.val.i & 0x1f)); emit_store_dst(jd, iptr, d); break; case ICMD_ISHRCONST: /* ..., value ==> ..., value >> constant */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* we need to check for zero here because arm interprets it as SHR by 32 */ if ((iptr->sx.val.i & 0x1f) == 0) { M_INTMOVE(s1, d); } else { M_MOV(d, REG_ASR(s1, iptr->sx.val.i & 0x1f)); } emit_store_dst(jd, iptr, d); break; case ICMD_IUSHRCONST: /* ..., value ==> ..., value >>> constant */ /* sx.val.i = constant */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* we need to check for zero here because arm interprets it as SHR by 32 */ if ((iptr->sx.val.i & 0x1f) == 0) M_INTMOVE(s1, d); else M_MOV(d, REG_LSR(s1, iptr->sx.val.i & 0x1f)); emit_store_dst(jd, iptr, d); break; case ICMD_IAND: /* ..., val1, val2 ==> ..., val1 & val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_AND(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_LAND: /* ..., val1, val2 ==> ..., val1 & val2 */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP3); s2 = emit_load_s2_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_AND(s1, s2, GET_LOW_REG(d)); s1 = emit_load_s1_high(jd, iptr, REG_ITMP3); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_AND(s1, s2, GET_HIGH_REG(d)); emit_store_dst(jd, iptr, d); break; case ICMD_IOR: /* ..., val1, val2 ==> ..., val1 | val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_ORR(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_LOR: /* ..., val1, val2 ==> ..., val1 | val2 */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP3); s2 = emit_load_s2_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_ORR(s1, s2, GET_LOW_REG(d)); s1 = emit_load_s1_high(jd, iptr, REG_ITMP3); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_ORR(s1, s2, GET_HIGH_REG(d)); emit_store_dst(jd, iptr, d); break; case ICMD_IXOR: /* ..., val1, val2 ==> ..., val1 ^ val2 */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_EOR(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_LXOR: /* ..., val1, val2 ==> ..., val1 ^ val2 */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP3); s2 = emit_load_s2_low(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_EOR(s1, s2, GET_LOW_REG(d)); s1 = emit_load_s1_high(jd, iptr, REG_ITMP3); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_EOR(s1, s2, GET_HIGH_REG(d)); emit_store_dst(jd, iptr, d); break; /* floating operations ************************************************/ #if !defined(ENABLE_SOFTFLOAT) case ICMD_FNEG: /* ..., value ==> ..., - value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FNEG(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_FADD: /* ..., val1, val2 ==> ..., val1 + val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FADD(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_FSUB: /* ..., val1, val2 ==> ..., val1 - val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FSUB(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_FMUL: /* ..., val1, val2 ==> ..., val1 * val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FMUL(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_FDIV: /* ..., val1, val2 ==> ..., val1 / val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FDIV(s1, s2, d); emit_store_dst(jd, iptr, d); break; /* ATTENTION: Jave does not want IEEE behaviour in FREM, do not use this */ #if 0 case ICMD_FREM: /* ..., val1, val2 ==> ..., val1 % val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_RMFS(d, s1, s2); emit_store_dst(jd, iptr, d); break; #endif case ICMD_DNEG: /* ..., value ==> ..., - value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DNEG(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_DADD: /* ..., val1, val2 ==> ..., val1 + val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DADD(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_DSUB: /* ..., val1, val2 ==> ..., val1 - val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DSUB(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_DMUL: /* ..., val1, val2 ==> ..., val1 * val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DMUL(s1, s2, d); emit_store_dst(jd, iptr, d); break; case ICMD_DDIV: /* ..., val1, val2 ==> ..., val1 / val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DDIV(s1, s2, d); emit_store_dst(jd, iptr, d); break; /* ATTENTION: Jave does not want IEEE behaviour in DREM, do not use this */ #if 0 case ICMD_DREM: /* ..., val1, val2 ==> ..., val1 % val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_RMFD(d, s1, s2); emit_store_dst(jd, iptr, d); break; #endif case ICMD_I2F: /* ..., value ==> ..., (float) value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); #if defined(__VFP_FP__) M_FMSR(s1, d); M_CVTIF(d, d); #else M_CVTIF(s1, d); #endif emit_store_dst(jd, iptr, d); break; case ICMD_I2D: /* ..., value ==> ..., (double) value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); #if defined(__VFP_FP__) M_FMSR(s1, d); M_CVTID(d, d); #else M_CVTID(s1, d); #endif emit_store_dst(jd, iptr, d); break; case ICMD_F2I: /* ..., value ==> ..., (int) value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); #if defined(__VFP_FP__) M_CVTFI(s1, REG_FTMP2); M_FMRS(REG_FTMP2, d); #else /* this uses round towards zero, as Java likes it */ M_CVTFI(s1, d); /* this checks for NaN; to return zero as Java likes it */ M_FCMP(s1, 0x8); M_MOVVS_IMM(0, d); #endif emit_store_dst(jd, iptr, d); break; case ICMD_D2I: /* ..., value ==> ..., (int) value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); #if defined(__VFP_FP__) M_CVTDI(s1, REG_FTMP2); M_FMRS(REG_FTMP2, d); #else /* this uses round towards zero, as Java likes it */ M_CVTDI(s1, d); /* this checks for NaN; to return zero as Java likes it */ M_DCMP(s1, 0x8); M_MOVVS_IMM(0, d); #endif emit_store_dst(jd, iptr, d); break; case ICMD_D2F: /* ..., value ==> ..., (float) value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP2); M_CVTDF(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_F2D: /* ..., value ==> ..., (double) value */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); d = codegen_reg_of_dst(jd, iptr, REG_FTMP2); M_CVTFD(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_FCMPG: /* ..., val1, val2 ==> ..., val1 fcmpg val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_FCMP(s2, s1); M_MOV_IMM(d, 0); #if defined(__VFP_FP__) M_FMSTAT; /* on VFP we need to transfer the flags */ #endif M_SUBGT_IMM(d, d, 1); M_ADDLT_IMM(d, d, 1); emit_store_dst(jd, iptr, d); break; case ICMD_DCMPG: /* ..., val1, val2 ==> ..., val1 dcmpg val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_DCMP(s2, s1); M_MOV_IMM(d, 0); #if defined(__VFP_FP__) M_FMSTAT; /* on VFP we need to transfer the flags */ #endif M_SUBGT_IMM(d, d, 1); M_ADDLT_IMM(d, d, 1); emit_store_dst(jd, iptr, d); break; case ICMD_FCMPL: /* ..., val1, val2 ==> ..., val1 fcmpl val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_FCMP(s1, s2); M_MOV_IMM(d, 0); #if defined(__VFP_FP__) M_FMSTAT; /* on VFP we need to transfer the flags */ #endif M_SUBLT_IMM(d, d, 1); M_ADDGT_IMM(d, d, 1); emit_store_dst(jd, iptr, d); break; case ICMD_DCMPL: /* ..., val1, val2 ==> ..., val1 dcmpl val2 */ s1 = emit_load_s1(jd, iptr, REG_FTMP1); s2 = emit_load_s2(jd, iptr, REG_FTMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_DCMP(s1, s2); M_MOV_IMM(d, 0); #if defined(__VFP_FP__) M_FMSTAT; /* on VFP we need to transfer the flags */ #endif M_SUBLT_IMM(d, d, 1); M_ADDGT_IMM(d, d, 1); emit_store_dst(jd, iptr, d); break; #endif /* !defined(ENABLE_SOFTFLOAT) */ /* memory operations **************************************************/ case ICMD_BALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, s2); /* REG_ITMP1 = s1 + 1 * s2 */ M_LDRSB(d, REG_ITMP1, OFFSET(java_bytearray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_CALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 1)); /* REG_ITMP1 = s1 + 2 * s2 */ M_LDRH(d, REG_ITMP1, OFFSET(java_chararray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_SALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 1)); /* REG_ITMP1 = s1 + 2 * s2 */ M_LDRSH(d, REG_ITMP1, OFFSET(java_shortarray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_IALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ M_ILD_INTERN(d, REG_ITMP1, OFFSET(java_intarray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_LALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP3, s1, REG_LSL(s2, 3)); /* REG_ITMP3 = s1 + 8 * s2 */ M_LLD_INTERN(d, REG_ITMP3, OFFSET(java_longarray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_FALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ #if !defined(ENABLE_SOFTFLOAT) d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FLD_INTERN(d, REG_ITMP1, OFFSET(java_floatarray_t, data[0])); #else d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_ILD_INTERN(d, REG_ITMP1, OFFSET(java_floatarray_t, data[0])); #endif emit_store_dst(jd, iptr, d); break; case ICMD_DALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP3, s1, REG_LSL(s2, 3)); /* REG_ITMP3 = s1 + 8 * s2 */ #if !defined(ENABLE_SOFTFLOAT) d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DLD_INTERN(d, REG_ITMP3, OFFSET(java_doublearray_t, data[0])); #else d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_LLD_INTERN(d, REG_ITMP3, OFFSET(java_doublearray_t, data[0])); #endif emit_store_dst(jd, iptr, d); break; case ICMD_AALOAD: /* ..., arrayref, index ==> ..., value */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ M_LDR_INTERN(d, REG_ITMP1, OFFSET(java_objectarray_t, data[0])); emit_store_dst(jd, iptr, d); break; case ICMD_BASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_ADD(REG_ITMP1, s1, s2); /* REG_ITMP1 = s1 + 1 * s2 */ M_STRB(s3, REG_ITMP1, OFFSET(java_bytearray_t, data[0])); break; case ICMD_CASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 1)); /* REG_ITMP1 = s1 + 2 * s2 */ M_STRH(s3, REG_ITMP1, OFFSET(java_chararray_t, data[0])); break; case ICMD_SASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 1)); /* REG_ITMP1 = s1 + 2 * s2 */ M_STRH(s3, REG_ITMP1, OFFSET(java_shortarray_t, data[0])); break; case ICMD_IASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ M_IST_INTERN(s3, REG_ITMP1, OFFSET(java_intarray_t, data[0])); break; case ICMD_LASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP3, s1, REG_LSL(s2, 3)); /* REG_ITMP3 = s1 + 8 * s2 */ s3 = emit_load_s3(jd, iptr, REG_ITMP12_PACKED); M_LST_INTERN(s3, REG_ITMP3, OFFSET(java_longarray_t, data[0])); break; case ICMD_FASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ #if !defined(ENABLE_SOFTFLOAT) s3 = emit_load_s3(jd, iptr, REG_FTMP1); M_FST_INTERN(s3, REG_ITMP1, OFFSET(java_floatarray_t, data[0])); #else s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_IST_INTERN(s3, REG_ITMP1, OFFSET(java_floatarray_t, data[0])); #endif break; case ICMD_DASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 3)); /* REG_ITMP1 = s1 + 8 * s2 */ #if !defined(ENABLE_SOFTFLOAT) s3 = emit_load_s3(jd, iptr, REG_FTMP1); M_DST_INTERN(s3, REG_ITMP1, OFFSET(java_doublearray_t, data[0])); #else s3 = emit_load_s3(jd, iptr, REG_ITMP23_PACKED); M_LST_INTERN(s3, REG_ITMP1, OFFSET(java_doublearray_t, data[0])); #endif break; case ICMD_AASTORE: /* ..., arrayref, index, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_A0); s2 = emit_load_s2(jd, iptr, REG_ITMP1); s3 = emit_load_s3(jd, iptr, REG_A1); /* implicit null-pointer check */ emit_arrayindexoutofbounds_check(cd, iptr, s1, s2); /* move arguments to argument registers */ M_INTMOVE(s1, REG_A0); M_INTMOVE(s3, REG_A1); /* call builtin function */ disp = dseg_add_functionptr(cd, BUILTIN_FAST_canstore); M_DSEG_BRANCH(disp); /* recompute pv */ emit_recompute_pv(cd); /* check resturn value of builtin */ emit_arraystore_check(cd, iptr); /* finally store address into array */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); s2 = emit_load_s2(jd, iptr, REG_ITMP2); s3 = emit_load_s3(jd, iptr, REG_ITMP3); M_ADD(REG_ITMP1, s1, REG_LSL(s2, 2)); /* REG_ITMP1 = s1 + 4 * s2 */ M_STR_INTERN(s3, REG_ITMP1, OFFSET(java_objectarray_t, data[0])); break; case ICMD_GETFIELD: /* ..., objectref, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP3); emit_nullpointer_check(cd, iptr, s1); if (INSTRUCTION_IS_UNRESOLVED(iptr)) { uf = iptr->sx.s23.s3.uf; fieldtype = uf->fieldref->parseddesc.fd->type; disp = 0; } else { fi = iptr->sx.s23.s3.fmiref->p.field; fieldtype = fi->type; disp = fi->offset; } #if !defined(ENABLE_SOFTFLOAT) /* HACK: softnull checks on floats */ if (!INSTRUCTION_MUST_CHECK(iptr) && IS_FLT_DBL_TYPE(fieldtype)) emit_nullpointer_check_force(cd, iptr, s1); #endif if (INSTRUCTION_IS_UNRESOLVED(iptr)) { /* XXX REMOVE ME */ uf = iptr->sx.s23.s3.uf; patcher_add_patch_ref(jd, PATCHER_get_putfield, uf, 0); } switch (fieldtype) { case TYPE_INT: #if defined(ENABLE_SOFTFLOAT) case TYPE_FLT: #endif case TYPE_ADR: d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); M_ILD(d, s1, disp); break; case TYPE_LNG: #if defined(ENABLE_SOFTFLOAT) case TYPE_DBL: #endif d = codegen_reg_of_dst(jd, iptr, REG_ITMP12_PACKED); M_LLD(d, s1, disp); break; #if !defined(ENABLE_SOFTFLOAT) case TYPE_FLT: d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_FLD(d, s1, disp); break; case TYPE_DBL: d = codegen_reg_of_dst(jd, iptr, REG_FTMP1); M_DLD(d, s1, disp); break; #endif default: assert(0); } emit_store_dst(jd, iptr, d); break; case ICMD_PUTFIELD: /* ..., objectref, value ==> ... */ s1 = emit_load_s1(jd, iptr, REG_ITMP3); emit_nullpointer_check(cd, iptr, s1); if (INSTRUCTION_IS_UNRESOLVED(iptr)) { uf = iptr->sx.s23.s3.uf; fieldtype = uf->fieldref->parseddesc.fd->type; disp = 0; } else { fi = iptr->sx.s23.s3.fmiref->p.field; fieldtype = fi->type; disp = fi->offset; } #if !defined(ENABLE_SOFTFLOAT) /* HACK: softnull checks on floats */ if (!INSTRUCTION_MUST_CHECK(iptr) && IS_FLT_DBL_TYPE(fieldtype)) emit_nullpointer_check_force(cd, iptr, s1); #endif switch (fieldtype) { case TYPE_INT: #if defined(ENABLE_SOFTFLOAT) case TYPE_FLT: #endif case TYPE_ADR: s2 = emit_load_s2(jd, iptr, REG_ITMP1); break; #if defined(ENABLE_SOFTFLOAT) case TYPE_DBL: /* fall through */ #endif case TYPE_LNG: s2 = emit_load_s2(jd, iptr, REG_ITMP12_PACKED); break; #if !defined(ENABLE_SOFTFLOAT) case TYPE_FLT: case TYPE_DBL: s2 = emit_load_s2(jd, iptr, REG_FTMP1); break; #endif default: assert(0); } if (INSTRUCTION_IS_UNRESOLVED(iptr)) { /* XXX REMOVE ME */ uf = iptr->sx.s23.s3.uf; patcher_add_patch_ref(jd, PATCHER_get_putfield, uf, 0); } switch (fieldtype) { case TYPE_INT: #if defined(ENABLE_SOFTFLOAT) case TYPE_FLT: #endif case TYPE_ADR: M_IST(s2, s1, disp); break; case TYPE_LNG: #if defined(ENABLE_SOFTFLOAT) case TYPE_DBL: #endif M_LST(s2, s1, disp); break; #if !defined(ENABLE_SOFTFLOAT) case TYPE_FLT: M_FST(s2, s1, disp); break; case TYPE_DBL: M_DST(s2, s1, disp); break; #endif default: assert(0); } break; /* branch operations **************************************************/ case ICMD_ATHROW: /* ..., objectref ==> ... (, objectref) */ disp = dseg_add_functionptr(cd, asm_handle_exception); M_DSEG_LOAD(REG_ITMP3, disp); M_MOV(REG_ITMP2_XPC, REG_PC); M_MOV(REG_PC, REG_ITMP3); M_NOP; /* nop ensures that XPC is less than the end */ /* of basic block */ break; case ICMD_IF_LEQ: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); if (iptr->sx.val.l == 0) { M_ORR_S(s1, s2, REG_ITMP3); } else { emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMPEQ(s2, REG_ITMP3); } emit_beq(cd, iptr->dst.block); break; case ICMD_IF_LLT: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); if (iptr->sx.val.l == 0) { /* if high word is less than zero, the whole long is too */ M_CMP_IMM(s1, 0); emit_blt(cd, iptr->dst.block); } else { /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ M_EOR(REG_ITMP1, REG_ITMP1, REG_ITMP1); M_MOVGT_IMM(2, REG_ITMP1); M_MOVEQ_IMM(1, REG_ITMP1); /* low compare: x=x-1(ifLO) */ emit_icmp_imm(cd, s2, (iptr->sx.val.l & 0xffffffff)); /*ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMP(s2, REG_ITMP3);*/ M_SUBLO_IMM(REG_ITMP1, REG_ITMP1, 1); /* branch if (x LT 1) */ M_CMP_IMM(REG_ITMP1, 1); emit_blt(cd, iptr->dst.block); } break; case ICMD_IF_LLE: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); if (iptr->sx.val.l == 0) { /* if high word is less than zero, the whole long is too */ M_CMP_IMM(s1, 0); emit_blt(cd, iptr->dst.block); /* ... otherwise the low word has to be zero (tricky!) */ M_CMPEQ_IMM(s2, 0); emit_beq(cd, iptr->dst.block); } else { /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ M_EOR(REG_ITMP1, REG_ITMP1, REG_ITMP1); M_MOVGT_IMM(2, REG_ITMP1); M_MOVEQ_IMM(1, REG_ITMP1); /* low compare: x=x+1(ifHI) */ emit_icmp_imm(cd, s2, (iptr->sx.val.l & 0xffffffff)); /*ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMP(s2, REG_ITMP3);*/ M_ADDHI_IMM(REG_ITMP1, REG_ITMP1, 1); /* branch if (x LE 1) */ M_CMP_IMM(REG_ITMP1, 1); emit_ble(cd, iptr->dst.block); } break; case ICMD_IF_LGE: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); if (iptr->sx.val.l == 0) { /* if high word is greater or equal zero, the whole long is too */ M_CMP_IMM(s1, 0); emit_bge(cd, iptr->dst.block); } else { /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ M_EOR(REG_ITMP1, REG_ITMP1, REG_ITMP1); M_MOVGT_IMM(2, REG_ITMP1); M_MOVEQ_IMM(1, REG_ITMP1); /* low compare: x=x-1(ifLO) */ emit_icmp_imm(cd, s2, (iptr->sx.val.l & 0xffffffff)); /*ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMP(s2, REG_ITMP3);*/ M_SUBLO_IMM(REG_ITMP1, REG_ITMP1, 1); /* branch if (x GE 1) */ M_CMP_IMM(REG_ITMP1, 1); emit_bge(cd, iptr->dst.block); } break; case ICMD_IF_LGT: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); #if 0 if (iptr->sx.val.l == 0) { /* if high word is greater than zero, the whole long is too */ M_CMP_IMM(s1, 0); M_BGT(0); codegen_add_branch_ref(cd, iptr->dst.block); /* ... or high was zero and low is non zero (tricky!) */ M_EOR(REG_ITMP3, REG_ITMP3, REG_ITMP3); M_MOVLT_IMM(1, REG_ITMP3); M_ORR_S(REG_ITMP3, s2, REG_ITMP3); M_BNE(0); codegen_add_branch_ref(cd, iptr->dst.block); } else { #endif /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ M_EOR(REG_ITMP1, REG_ITMP1, REG_ITMP1); M_MOVGT_IMM(2, REG_ITMP1); M_MOVEQ_IMM(1, REG_ITMP1); /* low compare: x=x+1(ifHI) */ emit_icmp_imm(cd, s2, (iptr->sx.val.l & 0xffffffff)); /*ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMP(s2, REG_ITMP3);*/ M_ADDHI_IMM(REG_ITMP1, REG_ITMP1, 1); /* branch if (x GT 1) */ M_CMP_IMM(REG_ITMP1, 1); emit_bgt(cd, iptr->dst.block); #if 0 } #endif break; case ICMD_IF_LNE: /* ..., value ==> ... */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s1_low(jd, iptr, REG_ITMP2); if (iptr->sx.val.l == 0) { M_ORR_S(s1, s2, REG_ITMP3); } else { emit_icmp_imm(cd, s1, (iptr->sx.val.l >> 32)); /*ICONST(REG_ITMP3, iptr->sx.val.l >> 32); M_CMP(s1, REG_ITMP3);*/ ICONST(REG_ITMP3, iptr->sx.val.l & 0xffffffff); M_CMPEQ(s2, REG_ITMP3); } emit_bne(cd, iptr->dst.block); break; case ICMD_IF_LCMPEQ: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMPEQ(s1, s2); emit_beq(cd, iptr->dst.block); break; case ICMD_IF_LCMPNE: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMPEQ(s1, s2); emit_bne(cd, iptr->dst.block); break; case ICMD_IF_LCMPLT: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_EOR(REG_ITMP3, REG_ITMP3, REG_ITMP3); M_MOVGT_IMM(2, REG_ITMP3); M_MOVEQ_IMM(1, REG_ITMP3); /* low compare: x=x-1(ifLO) */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_SUBLO_IMM(REG_ITMP3, REG_ITMP3, 1); /* branch if (x LT 1) */ M_CMP_IMM(REG_ITMP3, 1); emit_blt(cd, iptr->dst.block); break; case ICMD_IF_LCMPLE: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_EOR(REG_ITMP3, REG_ITMP3, REG_ITMP3); M_MOVGT_IMM(2, REG_ITMP3); M_MOVEQ_IMM(1, REG_ITMP3); /* low compare: x=x-1(ifLO) */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_ADDHI_IMM(REG_ITMP3, REG_ITMP3, 1); /* branch if (x LE 1) */ M_CMP_IMM(REG_ITMP3, 1); emit_ble(cd, iptr->dst.block); break; case ICMD_IF_LCMPGT: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_EOR(REG_ITMP3, REG_ITMP3, REG_ITMP3); M_MOVGT_IMM(2, REG_ITMP3); M_MOVEQ_IMM(1, REG_ITMP3); /* low compare: x=x-1(ifLO) */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_ADDHI_IMM(REG_ITMP3, REG_ITMP3, 1); /* branch if (x GT 1) */ M_CMP_IMM(REG_ITMP3, 1); emit_bgt(cd, iptr->dst.block); break; case ICMD_IF_LCMPGE: /* ..., value, value ==> ... */ /* op1 = target JavaVM pc */ /* high compare: x=0(ifLT) ; x=1(ifEQ) ; x=2(ifGT) */ s1 = emit_load_s1_high(jd, iptr, REG_ITMP1); s2 = emit_load_s2_high(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_EOR(REG_ITMP3, REG_ITMP3, REG_ITMP3); M_MOVGT_IMM(2, REG_ITMP3); M_MOVEQ_IMM(1, REG_ITMP3); /* low compare: x=x-1(ifLO) */ s1 = emit_load_s1_low(jd, iptr, REG_ITMP1); s2 = emit_load_s2_low(jd, iptr, REG_ITMP2); M_CMP(s1, s2); M_SUBLO_IMM(REG_ITMP3, REG_ITMP3, 1); /* branch if (x GE 1) */ M_CMP_IMM(REG_ITMP3, 1); emit_bge(cd, iptr->dst.block); break; case ICMD_TABLESWITCH: /* ..., index ==> ... */ { s4 i, l; branch_target_t *table; table = iptr->dst.table; l = iptr->sx.s23.s2.tablelow; i = iptr->sx.s23.s3.tablehigh; /* calculate new index (index - low) */ s1 = emit_load_s1(jd, iptr, REG_ITMP1); if (l == 0) { M_INTMOVE(s1, REG_ITMP1); } else if (IS_IMM(l)) { M_SUB_IMM(REG_ITMP1, s1, l); } else { ICONST(REG_ITMP2, l); M_SUB(REG_ITMP1, s1, REG_ITMP2); } /* range check (index <= high-low) */ i = i - l + 1; emit_icmp_imm(cd, REG_ITMP1, i-1); emit_bugt(cd, table[0].block); /* build jump table top down and use address of lowest entry */ table += i; while (--i >= 0) { dseg_add_target(cd, table->block); --table; } } /* length of dataseg after last dseg_add_target is used by load */ /* TODO: this loads from data-segment */ M_ADD(REG_ITMP2, REG_PV, REG_LSL(REG_ITMP1, 2)); M_LDR(REG_PC, REG_ITMP2, -(cd->dseglen)); break; case ICMD_BUILTIN: bte = iptr->sx.s23.s3.bte; md = bte->md; if (bte->stub == NULL) { disp = dseg_add_functionptr(cd, bte->fp); } else { disp = dseg_add_functionptr(cd, bte->stub); } M_DSEG_LOAD(REG_PV, disp); /* pointer to built-in-function */ /* generate the actual call */ M_MOV(REG_LR, REG_PC); M_MOV(REG_PC, REG_PV); #if !defined(__SOFTFP__) d = md->returntype.type; /* TODO: this is only a hack, since we use R0/R1 for float return! this depends on gcc; it is independent from our ENABLE_SOFTFLOAT define */ if (d != TYPE_VOID && IS_FLT_DBL_TYPE(d)) { #if 0 && !defined(NDEBUG) dolog("BUILTIN that returns float or double (%s.%s)", m->clazz->name->text, m->name->text); #endif /* we cannot use this macro, since it is not defined in ENABLE_SOFTFLOAT M_CAST_FLT_TO_INT_TYPED(d, REG_FRESULT, REG_RESULT_TYPED(d)); */ if (IS_2_WORD_TYPE(d)) { DCD(0xed2d8102); /* stfd f0, [sp, #-8]! */ M_LDRD_UPDATE(REG_RESULT_PACKED, REG_SP, 8); } else { DCD(0xed2d0101); /* stfs f0, [sp, #-4]!*/ M_LDR_UPDATE(REG_RESULT, REG_SP, 4); } } #endif break; case ICMD_INVOKESPECIAL: emit_nullpointer_check(cd, iptr, REG_A0); /* fall through */ case ICMD_INVOKESTATIC: if (INSTRUCTION_IS_UNRESOLVED(iptr)) { um = iptr->sx.s23.s3.um; disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_invokestatic_special, um, disp); } else { lm = iptr->sx.s23.s3.fmiref->p.method; disp = dseg_add_address(cd, lm->stubroutine); } M_DSEG_LOAD(REG_PV, disp); /* Pointer to method */ /* generate the actual call */ M_MOV(REG_LR, REG_PC); M_MOV(REG_PC, REG_PV); break; case ICMD_INVOKEVIRTUAL: if (INSTRUCTION_IS_UNRESOLVED(iptr)) { um = iptr->sx.s23.s3.um; int32_t disp = dseg_add_unique_s4(cd, 0); patcher_add_patch_ref(jd, PATCHER_invokevirtual, um, disp); // The following instruction MUST NOT change a0 because of the implicit NPE check. M_LDR_INTERN(REG_METHODPTR, REG_A0, OFFSET(java_object_t, vftbl)); // Sanity check. assert(REG_ITMP1 != REG_METHODPTR); assert(REG_ITMP2 == REG_METHODPTR); M_DSEG_LOAD(REG_ITMP1, disp); M_ADD(REG_METHODPTR, REG_METHODPTR, REG_ITMP1); // This must be a load with displacement, // otherwise the JIT method address patching does // not work anymore (see md_jit_method_patch_address). M_LDR_INTERN(REG_PV, REG_METHODPTR, 0); } else { lm = iptr->sx.s23.s3.fmiref->p.method; s1 = OFFSET(vftbl_t, table[0]) + sizeof(methodptr) * lm->vftblindex; // The following instruction MUST NOT change a0 because of the implicit NPE check. M_LDR_INTERN(REG_METHODPTR, REG_A0, OFFSET(java_object_t, vftbl)); M_LDR(REG_PV, REG_METHODPTR, s1); } // Generate the actual call. M_MOV(REG_LR, REG_PC); M_MOV(REG_PC, REG_PV); break; case ICMD_INVOKEINTERFACE: if (INSTRUCTION_IS_UNRESOLVED(iptr)) { um = iptr->sx.s23.s3.um; int32_t disp = dseg_add_unique_s4(cd, 0); int32_t disp2 = dseg_add_unique_s4(cd, 0); // XXX We need two displacements. assert(disp2 == disp - 4); patcher_add_patch_ref(jd, PATCHER_invokeinterface, um, disp); // The following instruction MUST NOT change a0 because of the implicit NPE check. M_LDR_INTERN(REG_METHODPTR, REG_A0, OFFSET(java_object_t, vftbl)); // Sanity check. assert(REG_ITMP1 != REG_METHODPTR); assert(REG_ITMP2 == REG_METHODPTR); assert(REG_ITMP3 != REG_METHODPTR); M_DSEG_LOAD(REG_ITMP1, disp); M_LDR_REG(REG_METHODPTR, REG_METHODPTR, REG_ITMP1); M_DSEG_LOAD(REG_ITMP3, disp2); M_ADD(REG_METHODPTR, REG_METHODPTR, REG_ITMP3); // This must be a load with displacement, // otherwise the JIT method address patching does // not work anymore (see md_jit_method_patch_address). M_LDR_INTERN(REG_PV, REG_METHODPTR, 0); } else { lm = iptr->sx.s23.s3.fmiref->p.method; s1 = OFFSET(vftbl_t, interfacetable[0]) - sizeof(methodptr*) * lm->clazz->index; s2 = sizeof(methodptr) * (lm - lm->clazz->methods); // The following instruction MUST NOT change a0 because of the implicit NPE check. M_LDR_INTERN(REG_METHODPTR, REG_A0, OFFSET(java_object_t, vftbl)); M_LDR(REG_METHODPTR, REG_METHODPTR, s1); M_LDR(REG_PV, REG_METHODPTR, s2); } // Generate the actual call. M_MOV(REG_LR, REG_PC); M_MOV(REG_PC, REG_PV); break; case ICMD_CHECKCAST: /* ..., objectref ==> ..., objectref */ if (!(iptr->flags.bits & INS_FLAG_ARRAY)) { /* object type cast-check */ classinfo *super; s4 superindex; if (INSTRUCTION_IS_UNRESOLVED(iptr)) { super = NULL; superindex = 0; } else { super = iptr->sx.s23.s3.c.cls; superindex = super->index; } s1 = emit_load_s1(jd, iptr, REG_ITMP1); /* if class is not resolved, check which code to call */ if (super == NULL) { M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_1); disp = dseg_add_unique_s4(cd, 0); /* super->flags */ patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_flags, iptr->sx.s23.s3.c.ref, disp); M_DSEG_LOAD(REG_ITMP2, disp); disp = dseg_add_s4(cd, ACC_INTERFACE); M_DSEG_LOAD(REG_ITMP3, disp); M_TST(REG_ITMP2, REG_ITMP3); emit_label_beq(cd, BRANCH_LABEL_2); } /* interface checkcast code */ if ((super == NULL) || (super->flags & ACC_INTERFACE)) { if ((super == NULL) || !IS_IMM(superindex)) { disp = dseg_add_unique_s4(cd, superindex); } if (super == NULL) { patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_index, iptr->sx.s23.s3.c.ref, disp); } else { M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_3); } M_LDR_INTERN(REG_ITMP2, s1, OFFSET(java_object_t, vftbl)); M_LDR_INTERN(REG_ITMP3, REG_ITMP2, OFFSET(vftbl_t, interfacetablelength)); /* we put unresolved or non-immediate superindices onto dseg */ if ((super == NULL) || !IS_IMM(superindex)) { /* disp was computed before we added the patcher */ M_DSEG_LOAD(REG_ITMP2, disp); M_CMP(REG_ITMP3, REG_ITMP2); } else { assert(IS_IMM(superindex)); M_CMP_IMM(REG_ITMP3, superindex); } emit_classcast_check(cd, iptr, BRANCH_LE, REG_ITMP3, s1); /* if we loaded the superindex out of the dseg above, we do things differently here! */ if ((super == NULL) || !IS_IMM(superindex)) { M_LDR_INTERN(REG_ITMP3, s1, OFFSET(java_object_t, vftbl)); /* this assumes something */ assert(OFFSET(vftbl_t, interfacetable[0]) == 0); /* this does: REG_ITMP3 - superindex * sizeof(methodptr*) */ assert(sizeof(methodptr*) == 4); M_SUB(REG_ITMP2, REG_ITMP3, REG_LSL(REG_ITMP2, 2)); s2 = 0; } else { s2 = OFFSET(vftbl_t, interfacetable[0]) - superindex * sizeof(methodptr*); } M_LDR_INTERN(REG_ITMP3, REG_ITMP2, s2); M_TST(REG_ITMP3, REG_ITMP3); emit_classcast_check(cd, iptr, BRANCH_EQ, REG_ITMP3, s1); if (super == NULL) emit_label_br(cd, BRANCH_LABEL_4); else emit_label(cd, BRANCH_LABEL_3); } /* class checkcast code */ if ((super == NULL) || !(super->flags & ACC_INTERFACE)) { if (super == NULL) { emit_label(cd, BRANCH_LABEL_2); disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_vftbl, iptr->sx.s23.s3.c.ref, disp); } else { disp = dseg_add_address(cd, super->vftbl); M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_5); } // The following code checks whether object s is a subtype of class t. // Represents the following semantic: // if (!fast_subtype_check(s->vftbl, t->vftbl)) throw; M_LDR_INTERN(REG_ITMP2, s1, OFFSET(java_object_t, vftbl)); M_DSEG_LOAD(REG_ITMP3, disp); if (super == NULL || super->vftbl->subtype_depth >= DISPLAY_SIZE) { // Represents the following semantic: // if (*(s->vftbl + t->vftbl->subtype_offset) == t->vftbl) good; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_LDR_INTERN(REG_ITMP1, REG_ITMP3, OFFSET(vftbl_t, subtype_offset)); M_LDR_REG(REG_ITMP1, REG_ITMP2, REG_ITMP1); M_CMP(REG_ITMP1, REG_ITMP3); emit_load_s1(jd, iptr, REG_ITMP1); /* reload s1, might have been destroyed */ emit_label_beq(cd, BRANCH_LABEL_6); /* good */ // Represents the following semantic: // if (t->vftbl->subtype_offset != OFFSET(vftbl_t, subtype_display[DISPLAY_SIZE])) throw; // Preconditions: // REG_ITMP3==t->vftbl; if (super == NULL) { M_LDR_INTERN(REG_ITMP1, REG_ITMP3, OFFSET(vftbl_t, subtype_offset)); M_CMP_IMM(REG_ITMP1, OFFSET(vftbl_t, subtype_display[DISPLAY_SIZE])); emit_load_s1(jd, iptr, REG_ITMP1); /* reload s1, might have been destroyed */ emit_classcast_check(cd, iptr, BRANCH_NE, 0, s1); /* throw */ } // Represents the following semantic: // if (s->vftbl->subtype_depth < t->vftbl->subtype_depth) throw; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_LDR_INTERN(REG_ITMP1, REG_ITMP2, OFFSET(vftbl_t, subtype_depth)); M_LDR_INTERN(REG_ITMP3, REG_ITMP3, OFFSET(vftbl_t, subtype_depth)); M_CMP(REG_ITMP1, REG_ITMP3); emit_load_s1(jd, iptr, REG_ITMP1); /* reload s1, might have been destroyed */ emit_classcast_check(cd, iptr, BRANCH_LT, 0, s1); /* throw */ // Represents the following semantic: // if (s->vftbl->subtype_overflow[t->vftbl->subtype_depth - DISPLAY_SIZE] != t->vftbl) throw; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl->subtype_depth; M_LDR_INTERN(REG_ITMP2, REG_ITMP2, OFFSET(vftbl_t, subtype_overflow)); M_ADD(REG_ITMP2, REG_ITMP2, REG_LSL(REG_ITMP3, 2)); /* REG_ITMP2 = REG_ITMP2 + 4 * REG_ITMP3 */ M_LDR_INTERN(REG_ITMP2, REG_ITMP2, -DISPLAY_SIZE * SIZEOF_VOID_P); M_DSEG_LOAD(REG_ITMP3, disp); /* reload REG_ITMP3, was destroyed */ M_CMP(REG_ITMP2, REG_ITMP3); emit_classcast_check(cd, iptr, BRANCH_NE, 0, s1); /* throw */ emit_label(cd, BRANCH_LABEL_6); } else { // Represents the following semantic: // if (*(s->vftbl + t->vftbl->subtype_offset) != t->vftbl) throw; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_ALD(REG_ITMP2, REG_ITMP2, super->vftbl->subtype_offset); M_CMP(REG_ITMP2, REG_ITMP3); emit_classcast_check(cd, iptr, BRANCH_NE, 0, s1); } if (super != NULL) emit_label(cd, BRANCH_LABEL_5); } if (super == NULL) { emit_label(cd, BRANCH_LABEL_1); emit_label(cd, BRANCH_LABEL_4); } d = codegen_reg_of_dst(jd, iptr, REG_ITMP1); } else { /* array type cast-check */ s1 = emit_load_s1(jd, iptr, REG_A0); M_INTMOVE(s1, REG_A0); if (INSTRUCTION_IS_UNRESOLVED(iptr)) { disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_classinfo, iptr->sx.s23.s3.c.ref, disp); } else disp = dseg_add_address(cd, iptr->sx.s23.s3.c.cls); M_DSEG_LOAD(REG_A1, disp); disp = dseg_add_functionptr(cd, BUILTIN_arraycheckcast); M_DSEG_BRANCH(disp); emit_recompute_pv(cd); s1 = emit_load_s1(jd, iptr, REG_ITMP1); M_TST(REG_RESULT, REG_RESULT); emit_classcast_check(cd, iptr, BRANCH_EQ, REG_RESULT, s1); d = codegen_reg_of_dst(jd, iptr, s1); } M_INTMOVE(s1, d); emit_store_dst(jd, iptr, d); break; case ICMD_INSTANCEOF: /* ..., objectref ==> ..., intresult */ { classinfo *super; s4 superindex; if (INSTRUCTION_IS_UNRESOLVED(iptr)) { super = NULL; superindex = 0; } else { super = iptr->sx.s23.s3.c.cls; superindex = super->index; } s1 = emit_load_s1(jd, iptr, REG_ITMP1); d = codegen_reg_of_dst(jd, iptr, REG_ITMP2); if (s1 == d) { M_MOV(REG_ITMP1, s1); s1 = REG_ITMP1; } /* if class is not resolved, check which code to call */ if (super == NULL) { M_EOR(d, d, d); M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_1); disp = dseg_add_unique_s4(cd, 0); /* super->flags */ patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_flags, iptr->sx.s23.s3.c.ref, disp); M_DSEG_LOAD(REG_ITMP2, disp); disp = dseg_add_s4(cd, ACC_INTERFACE); M_DSEG_LOAD(REG_ITMP3, disp); M_TST(REG_ITMP2, REG_ITMP3); emit_label_beq(cd, BRANCH_LABEL_2); } /* interface checkcast code */ if ((super == NULL) || (super->flags & ACC_INTERFACE)) { if ((super == NULL) || !IS_IMM(superindex)) { disp = dseg_add_unique_s4(cd, superindex); } if (super == NULL) { /* If d == REG_ITMP2, then it's destroyed in check code above. */ if (d == REG_ITMP2) M_EOR(d, d, d); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_index, iptr->sx.s23.s3.c.ref, disp); } else { M_EOR(d, d, d); M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_3); } M_LDR_INTERN(REG_ITMP1, s1, OFFSET(java_object_t, vftbl)); M_LDR_INTERN(REG_ITMP3, REG_ITMP1, OFFSET(vftbl_t, interfacetablelength)); /* we put unresolved or non-immediate superindices onto dseg and do things slightly different */ if ((super == NULL) || !IS_IMM(superindex)) { /* disp was computed before we added the patcher */ M_DSEG_LOAD(REG_ITMP2, disp); M_CMP(REG_ITMP3, REG_ITMP2); if (d == REG_ITMP2) { M_EORLE(d, d, d); M_BLE(4); } else { M_BLE(3); } /* this assumes something */ assert(OFFSET(vftbl_t, interfacetable[0]) == 0); /* this does: REG_ITMP3 - superindex * sizeof(methodptr*) */ assert(sizeof(methodptr*) == 4); M_SUB(REG_ITMP1, REG_ITMP1, REG_LSL(REG_ITMP2, 2)); if (d == REG_ITMP2) { M_EOR(d, d, d); } s2 = 0; } else { assert(IS_IMM(superindex)); M_CMP_IMM(REG_ITMP3, superindex); M_BLE(2); s2 = OFFSET(vftbl_t, interfacetable[0]) - superindex * sizeof(methodptr*); } M_LDR_INTERN(REG_ITMP3, REG_ITMP1, s2); M_TST(REG_ITMP3, REG_ITMP3); M_MOVNE_IMM(1, d); if (super == NULL) emit_label_br(cd, BRANCH_LABEL_4); else emit_label(cd, BRANCH_LABEL_3); } /* class checkcast code */ if ((super == NULL) || !(super->flags & ACC_INTERFACE)) { if (super == NULL) { emit_label(cd, BRANCH_LABEL_2); disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_vftbl, iptr->sx.s23.s3.c.ref, disp); } else { disp = dseg_add_address(cd, super->vftbl); M_EOR(d, d, d); M_TST(s1, s1); emit_label_beq(cd, BRANCH_LABEL_5); } // The following code checks whether object s is a subtype of class t. // Represents the following semantic: // fast_subtype_check(s->vftbl, t->vftbl)); M_LDR_INTERN(REG_ITMP2, s1, OFFSET(java_object_t, vftbl)); M_DSEG_LOAD(REG_ITMP3, disp); if (super == NULL || super->vftbl->subtype_depth >= DISPLAY_SIZE) { // Represents the following semantic: // if (*(s->vftbl + t->vftbl->subtype_offset) == t->vftbl) true; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_LDR_INTERN(REG_ITMP1, REG_ITMP3, OFFSET(vftbl_t, subtype_offset)); M_LDR_REG(REG_ITMP1, REG_ITMP2, REG_ITMP1); M_CMP(REG_ITMP1, REG_ITMP3); emit_label_beq(cd, BRANCH_LABEL_6); /* true */ // Represents the following semantic: // if (t->vftbl->subtype_offset != OFFSET(vftbl_t, subtype_display[DISPLAY_SIZE])) false; // Preconditions: // REG_ITMP3==t->vftbl; if (super == NULL) { M_LDR_INTERN(REG_ITMP1, REG_ITMP3, OFFSET(vftbl_t, subtype_offset)); M_CMP_IMM(REG_ITMP1, OFFSET(vftbl_t, subtype_display[DISPLAY_SIZE])); emit_label_bne(cd, BRANCH_LABEL_7); /* false */ } // Represents the following semantic: // if (s->vftbl->subtype_depth < t->vftbl->subtype_depth) false; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_LDR_INTERN(REG_ITMP1, REG_ITMP2, OFFSET(vftbl_t, subtype_depth)); M_LDR_INTERN(REG_ITMP3, REG_ITMP3, OFFSET(vftbl_t, subtype_depth)); M_CMP(REG_ITMP1, REG_ITMP3); emit_label_blt(cd, BRANCH_LABEL_8); /* false */ // Represents the following semantic: // if (s->vftbl->subtype_overflow[t->vftbl->subtype_depth - DISPLAY_SIZE] != t->vftbl) false; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl->subtype_depth; M_LDR_INTERN(REG_ITMP2, REG_ITMP2, OFFSET(vftbl_t, subtype_overflow)); M_ADD(REG_ITMP2, REG_ITMP2, REG_LSL(REG_ITMP3, 2)); /* REG_ITMP2 = REG_ITMP2 + 4 * REG_ITMP3 */ M_LDR_INTERN(REG_ITMP2, REG_ITMP2, -DISPLAY_SIZE * SIZEOF_VOID_P); M_DSEG_LOAD(REG_ITMP3, disp); /* reload REG_ITMP3, was destroyed */ M_CMP(REG_ITMP2, REG_ITMP3); emit_label(cd, BRANCH_LABEL_6); if (super == NULL) emit_label(cd, BRANCH_LABEL_7); emit_label(cd, BRANCH_LABEL_8); /* If d == REG_ITMP2, then it's destroyed */ if (d == REG_ITMP2) M_EOR(d, d, d); M_MOVEQ_IMM(1, d); } else { // Represents the following semantic: // *(s->vftbl + t->vftbl->subtype_offset) == t->vftbl; // Preconditions: // REG_ITMP2==s->vftbl; REG_ITMP3==t->vftbl; M_ALD(REG_ITMP2, REG_ITMP2, super->vftbl->subtype_offset); M_CMP(REG_ITMP2, REG_ITMP3); /* If d == REG_ITMP2, then it's destroyed */ if (d == REG_ITMP2) M_EOR(d, d, d); M_MOVEQ_IMM(1, d); } if (super != NULL) emit_label(cd, BRANCH_LABEL_5); } if (super == NULL) { emit_label(cd, BRANCH_LABEL_1); emit_label(cd, BRANCH_LABEL_4); } } emit_store_dst(jd, iptr, d); break; case ICMD_MULTIANEWARRAY:/* ..., cnt1, [cnt2, ...] ==> ..., arrayref */ /* copy sizes to stack if necessary */ MCODECHECK((iptr->s1.argcount << 1) + 64); for (s1 = iptr->s1.argcount; --s1 >= 0; ) { var = VAR(iptr->sx.s23.s2.args[s1]); /* copy SAVEDVAR sizes to stack */ if (!(var->flags & PREALLOC)) { s2 = emit_load(jd, iptr, var, REG_ITMP1); M_STR(s2, REG_SP, s1 * 4); } } /* a0 = dimension count */ assert(IS_IMM(iptr->s1.argcount)); M_MOV_IMM(REG_A0, iptr->s1.argcount); /* is patcher function set? */ if (INSTRUCTION_IS_UNRESOLVED(iptr)) { disp = dseg_add_unique_address(cd, NULL); patcher_add_patch_ref(jd, PATCHER_resolve_classref_to_classinfo, iptr->sx.s23.s3.c.ref, disp); } else disp = dseg_add_address(cd, iptr->sx.s23.s3.c.cls); /* a1 = arraydescriptor */ M_DSEG_LOAD(REG_A1, disp); /* a2 = pointer to dimensions = stack pointer */ M_INTMOVE(REG_SP, REG_A2); /* call builtin_multianewarray here */ disp = dseg_add_functionptr(cd, BUILTIN_multianewarray); M_DSEG_BRANCH(disp); /* recompute pv */ emit_recompute_pv(cd); /* check for exception before result assignment */ emit_exception_check(cd, iptr); /* get arrayref */ d = codegen_reg_of_dst(jd, iptr, REG_RESULT); M_INTMOVE(REG_RESULT, d); emit_store_dst(jd, iptr, d); break; default: vm_abort("Unknown ICMD %d during code generation", iptr->opc); } /* the big switch */ } /* codegen_emit_stub_native **************************************************** Emits a stub routine which calls a native method. *******************************************************************************/ void codegen_emit_stub_native(jitdata *jd, methoddesc *nmd, functionptr f, int skipparams) { methodinfo *m; codeinfo *code; codegendata *cd; methoddesc *md; s4 i, j; s4 t; int s1, s2; int disp; /* get required compiler data */ m = jd->m; code = jd->code; cd = jd->cd; /* initialize variables */ md = m->parseddesc; /* calculate stackframe size */ cd->stackframesize = 1 + /* return address */ sizeof(stackframeinfo_t) / SIZEOF_VOID_P + /* stackframeinfo */ sizeof(localref_table) / SIZEOF_VOID_P + /* localref_table */ nmd->memuse; /* stack arguments */ /* align stack to 8-byte */ cd->stackframesize = (cd->stackframesize + 1) & ~1; /* create method header */ (void) dseg_add_unique_address(cd, code); /* CodeinfoPointer */ (void) dseg_add_unique_s4(cd, cd->stackframesize); /* FrameSize */ (void) dseg_add_unique_s4(cd, 0); /* IsLeaf */ (void) dseg_add_unique_s4(cd, 0); /* IntSave */ (void) dseg_add_unique_s4(cd, 0); /* FltSave */ /* generate stub code */ M_STMFD(1<stackframesize * 2 - 1); #if defined(ENABLE_GC_CACAO) /* Save callee saved integer registers in stackframeinfo (GC may need to recover them during a collection). */ disp = cd->stackframesize - SIZEOF_VOID_P - sizeof(stackframeinfo_t) + OFFSET(stackframeinfo_t, intregs); for (i = 0; i < INT_SAV_CNT; i++) M_STR_INTERN(abi_registers_integer_saved[i], REG_SP, disp + i * 4); #endif /* Save integer and float argument registers (these are 4 registers, stack is 8-byte aligned). */ M_STMFD(BITMASK_ARGS, REG_SP); /* TODO: floating point */ /* create native stackframe info */ M_ADD_IMM(REG_A0, REG_SP, 4*4); M_MOV(REG_A1, REG_PV); disp = dseg_add_functionptr(cd, codegen_start_native_call); M_DSEG_BRANCH(disp); /* recompute pv */ emit_recompute_pv(cd); /* remember class argument */ if (m->flags & ACC_STATIC) M_MOV(REG_ITMP3, REG_RESULT); /* Restore integer and float argument registers (these are 4 registers, stack is 8-byte aligned). */ M_LDMFD(BITMASK_ARGS, REG_SP); /* TODO: floating point */ /* copy or spill arguments to new locations */ /* ATTENTION: the ARM has only integer argument registers! */ for (i = md->paramcount - 1, j = i + skipparams; i >= 0; i--, j--) { t = md->paramtypes[i].type; if (!md->params[i].inmemory) { s1 = md->params[i].regoff; s2 = nmd->params[j].regoff; if (!nmd->params[j].inmemory) { #if !defined(__ARM_EABI__) SPLIT_OPEN(t, s2, REG_ITMP1); #endif if (IS_2_WORD_TYPE(t)) M_LNGMOVE(s1, s2); else M_INTMOVE(s1, s2); #if !defined(__ARM_EABI__) SPLIT_STORE_AND_CLOSE(t, s2, 0); #endif } else { if (IS_2_WORD_TYPE(t)) M_LST(s1, REG_SP, s2); else M_IST(s1, REG_SP, s2); } } else { s1 = md->params[i].regoff + cd->stackframesize * 8; s2 = nmd->params[j].regoff; if (IS_2_WORD_TYPE(t)) { M_LLD(REG_ITMP12_PACKED, REG_SP, s1); M_LST(REG_ITMP12_PACKED, REG_SP, s2); } else { M_ILD(REG_ITMP1, REG_SP, s1); M_IST(REG_ITMP1, REG_SP, s2); } } } /* Handle native Java methods. */ if (m->flags & ACC_NATIVE) { /* put class into second argument register */ if (m->flags & ACC_STATIC) M_MOV(REG_A1, REG_ITMP3); /* put env into first argument register */ disp = dseg_add_address(cd, VM_get_jnienv()); M_DSEG_LOAD(REG_A0, disp); } /* Call the native function. */ disp = dseg_add_functionptr(cd, f); M_DSEG_BRANCH(disp); /* recompute pv */ /* TODO: this is only needed because of the tracer ... do we really need it? */ emit_recompute_pv(cd); #if !defined(__SOFTFP__) /* TODO: this is only a hack, since we use R0/R1 for float return! */ /* this depends on gcc; it is independent from our ENABLE_SOFTFLOAT define */ if (md->returntype.type != TYPE_VOID && IS_FLT_DBL_TYPE(md->returntype.type)) { #if 0 && !defined(NDEBUG) dolog("NATIVESTUB that returns float or double (%s.%s)", m->clazz->name->text, m->name->text); #endif /* we cannot use this macro, since it is not defined in ENABLE_SOFTFLOAT */ /* M_CAST_FLT_TO_INT_TYPED(md->returntype.type, REG_FRESULT, REG_RESULT_TYPED(md->returntype.type)); */ if (IS_2_WORD_TYPE(md->returntype.type)) { DCD(0xed2d8102); /* stfd f0, [sp, #-8]! */ M_LDRD_UPDATE(REG_RESULT_PACKED, REG_SP, 8); } else { DCD(0xed2d0101); /* stfs f0, [sp, #-4]!*/ M_LDR_UPDATE(REG_RESULT, REG_SP, 4); } } #endif /* remove native stackframe info */ /* TODO: improve this store/load */ M_STMFD(BITMASK_RESULT, REG_SP); M_ADD_IMM(REG_A0, REG_SP, 2*4); M_MOV(REG_A1, REG_PV); disp = dseg_add_functionptr(cd, codegen_finish_native_call); M_DSEG_BRANCH(disp); emit_recompute_pv(cd); M_MOV(REG_ITMP1_XPTR, REG_RESULT); M_LDMFD(BITMASK_RESULT, REG_SP); #if defined(ENABLE_GC_CACAO) /* restore callee saved int registers from stackframeinfo (GC might have */ /* modified them during a collection). */ disp = cd->stackframesize - SIZEOF_VOID_P - sizeof(stackframeinfo_t) + OFFSET(stackframeinfo_t, intregs); for (i = 0; i < INT_SAV_CNT; i++) M_LDR_INTERN(abi_registers_integer_saved[i], REG_SP, disp + i * 4); #endif /* finish stub code, but do not yet return to caller */ M_ADD_IMM_EXT_MUL4(REG_SP, REG_SP, cd->stackframesize * 2 - 1); M_LDMFD(1< i am going to exit after this debugging message!\n"); printf("got asm_debug(%p, %p, %p, %p)\n",(void*)a1,(void*)a2,(void*)a3,(void*)a4); vm_abort("leave you now"); } /* * 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: * vim:noexpandtab:sw=4:ts=4: */