/* jit/parse.c - parser for JavaVM to intermediate code translation Copyright (C) 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003 R. Grafl, A. Krall, C. Kruegel, C. Oates, R. Obermaisser, M. Probst, S. Ring, E. Steiner, C. Thalinger, D. Thuernbeck, P. Tomsich, J. Wenninger 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Contact: cacao@complang.tuwien.ac.at Author: Andreas Krall Changes: Carolyn Oates Edwin Steiner $Id: parse.c 696 2003-12-06 20:10:05Z edwin $ */ #include #include "parse.h" #include "global.h" #include "jit.h" #include "parseRT.h" #include "inline.h" #include "loop/loop.h" #include "types.h" #include "builtin.h" #include "tables.h" #include "native.h" #include "loader.h" #include "toolbox/memory.h" #include "toolbox/loging.h" /* data about the currently parsed method */ classinfo *rt_class; /* class the compiled method belongs to */ methodinfo *rt_method; /* pointer to method info of compiled method */ utf *rt_descriptor; /* type descriptor of compiled method */ int rt_jcodelength; /* length of JavaVM-codes */ u1 *rt_jcode; /* pointer to start of JavaVM-code */ /*INLINING*/ //#include "inline.c" /*#define debug_writebranch printf("op: %s i: %d label_index[i]: %d\n",icmd_names[opcode], i, label_index[i]);*/ #define debug_writebranch /* functionc compiler_addinitclass ********************************************* add class into the list of classes to initialize *******************************************************************************/ void compiler_addinitclass(classinfo *c) { classinfo *cl; if (c->initialized) return; cl = chain_first(uninitializedclasses); if (cl == c) return; if (cl == class) cl = chain_next(uninitializedclasses); for (;;) { if (cl == c) return; if (cl == NULL) { if (runverbose) { char logtext[MAXLOGTEXT]; sprintf(logtext, "compiler_addinitclass: "); utf_sprint(logtext+strlen(logtext), c->name); dolog(logtext); } chain_addlast(uninitializedclasses, c); return; } if (c < cl) { if (runverbose) { char logtext[MAXLOGTEXT]; sprintf(logtext, "compiler_addinitclass: "); utf_sprint(logtext+strlen(logtext), c->name); dolog(logtext); } chain_addbefore(uninitializedclasses, c); return; } cl = chain_next(uninitializedclasses); } } /* function descriptor2typesL *************************************************** decodes a already checked method descriptor. The parameter count, the return type and the argument types are stored in the passed methodinfo. gets and saves classptr for object ref.s *******************************************************************************/ classSetNode *descriptor2typesL(methodinfo *m) { int debugInfo = 0; int i; u1 *types, *tptr; int pcount, c; char *utf_ptr; classinfo** classtypes; char *class; char *desc; classSetNode *p=NULL; if (debugInfo >= 1) { printf("In descriptor2typesL >>>\t"); fflush(stdout); utf_display(m->class->name); printf("."); method_display(m);fflush(stdout); } pcount = 0; desc = MNEW (char, 256); types = DMNEW (u1, m->descriptor->blength); classtypes = MNEW (classinfo*, m->descriptor->blength+1); m->returnclass = NULL; tptr = types; if (!(m->flags & ACC_STATIC)) { *tptr++ = TYPE_ADR; if (debugInfo >= 1) { printf("param #0 (this?) method class =");utf_display(m->class->name);printf("\n"); } classtypes[pcount] = m->class; p = addClassCone(p, m->class); pcount++; } utf_ptr = m->descriptor->text + 1; strcpy (desc,utf_ptr); while ((c = *desc++) != ')') { pcount++; switch (c) { case 'B': case 'C': case 'I': case 'S': case 'Z': *tptr++ = TYPE_INT; break; case 'J': *tptr++ = TYPE_LNG; break; case 'F': *tptr++ = TYPE_FLT; break; case 'D': *tptr++ = TYPE_DBL; break; case 'L': *tptr++ = TYPE_ADR; /* get class string */ class = strtok(desc,";"); desc = strtok(NULL,"\0"); /* get/save classinfo ptr */ classtypes[pcount-1] = class_get(utf_new_char(class)); p = addClassCone(p, class_get(utf_new_char(class))); if (debugInfo >= 1) { printf("LParam#%i 's class type is: %s\n",pcount-1,class);fflush(stdout); printf("Lclasstypes[%i]=",pcount-1);fflush(stdout); utf_display(classtypes[pcount-1]->name); } break; case '[': *tptr++ = TYPE_ADR; while (c == '[') c = *desc++; /* get class string */ if (c == 'L') { class = strtok(desc,";"); desc = strtok(NULL,"\0"); /* get/save classinfo ptr */ classtypes[pcount-1] = class_get(utf_new_char(class)); p= addClassCone(p, class_get(utf_new_char(class))); if (debugInfo >= 1) { printf("[Param#%i 's class type is: %s\n",pcount-1,class); printf("[classtypes[%i]=",pcount-1);fflush(stdout); utf_display(classtypes[pcount-1]->name); printf("\n"); } } else classtypes[pcount-1] = NULL; break; default: panic("Ill formed methodtype-descriptor"); } } /* compute return type */ switch (*desc++) { case 'B': case 'C': case 'I': case 'S': case 'Z': m->returntype = TYPE_INT; break; case 'J': m->returntype = TYPE_LNG; break; case 'F': m->returntype = TYPE_FLT; break; case 'D': m->returntype = TYPE_DBL; break; case '[': m->returntype = TYPE_ADR; c = *desc; while (c == '[') c = *desc++; if (c != 'L') break; *(desc++); case 'L': m->returntype = TYPE_ADR; /* get class string */ class = strtok(desc,";"); m->returnclass = class_get(utf_new_char(class)); if (m->returnclass == NULL) { printf("class=%s :\t",class); panic ("return class not found"); } break; case 'V': m->returntype = TYPE_VOID; break; default: panic("Ill formed methodtype-descriptor-ReturnType"); } m->paramcount = pcount; m->paramtypes = types; m->paramclass = classtypes; if (debugInfo >=1) { if (pcount > 0) { for (i=0; i< m->paramcount; i++) { if ((m->paramtypes[i] == TYPE_ADR) && (m->paramclass[i] != NULL)) { printf("Param #%i is:\t",i); utf_display(m->paramclass[i]->name); printf("\n"); } } } if ((m->returntype == TYPE_ADR) && (m->returnclass != NULL)) { printf("\tReturn Type is:\t"); fflush(stdout); utf_display(m->returnclass->name); printf("\n"); } printf("params2types: START results in a set \n"); printf("param2types: A Set size=%i=\n",sizeOfSet(p)); printSet(p); } return p; } /* function descriptor2types *************************************************** decodes a already checked method descriptor. The parameter count, the return type and the argument types are stored in the passed methodinfo. *******************************************************************************/ void descriptor2types(methodinfo *m) { u1 *types, *tptr; int pcount, c; char *utf_ptr; pcount = 0; types = DMNEW(u1, m->descriptor->blength); tptr = types; if (!(m->flags & ACC_STATIC)) { *tptr++ = TYPE_ADR; pcount++; } utf_ptr = m->descriptor->text + 1; while ((c = *utf_ptr++) != ')') { pcount++; switch (c) { case 'B': case 'C': case 'I': case 'S': case 'Z': *tptr++ = TYPE_INT; break; case 'J': *tptr++ = TYPE_LNG; break; case 'F': *tptr++ = TYPE_FLT; break; case 'D': *tptr++ = TYPE_DBL; break; case 'L': *tptr++ = TYPE_ADR; while (*utf_ptr++ != ';'); break; case '[': *tptr++ = TYPE_ADR; while (c == '[') c = *utf_ptr++; if (c == 'L') while (*utf_ptr++ != ';') /* skip */; break; default: panic ("Ill formed methodtype-descriptor"); } } /* compute return type */ switch (*utf_ptr++) { case 'B': case 'C': case 'I': case 'S': case 'Z': m->returntype = TYPE_INT; break; case 'J': m->returntype = TYPE_LNG; break; case 'F': m->returntype = TYPE_FLT; break; case 'D': m->returntype = TYPE_DBL; break; case '[': case 'L': m->returntype = TYPE_ADR; break; case 'V': m->returntype = TYPE_VOID; break; default: panic ("Ill formed methodtype-descriptor"); } m->paramcount = pcount; m->paramtypes = types; } /******************************************************************************* function 'parse' scans the JavaVM code and generates intermediate code During parsing the block index table is used to store at bit pos 0 a flag which marks basic block starts and at position 1 to 31 the intermediate instruction index. After parsing the block index table is scanned, for marked positions a block is generated and the block number is stored in the block index table. *******************************************************************************/ /* intermediate code generating macros */ #define PINC iptr++;ipc++ #define LOADCONST_I(v) iptr->opc=ICMD_ICONST;iptr->op1=0;iptr->val.i=(v);PINC #define LOADCONST_L(v) iptr->opc=ICMD_LCONST;iptr->op1=0;iptr->val.l=(v);PINC #define LOADCONST_F(v) iptr->opc=ICMD_FCONST;iptr->op1=0;iptr->val.f=(v);PINC #define LOADCONST_D(v) iptr->opc=ICMD_DCONST;iptr->op1=0;iptr->val.d=(v);PINC #define LOADCONST_A(v) iptr->opc=ICMD_ACONST;iptr->op1=0;iptr->val.a=(v);PINC #define OP(o) iptr->opc=(o);iptr->op1=0;iptr->val.l=0;PINC #define OP1(o,o1) iptr->opc=(o);iptr->op1=(o1);iptr->val.l=(0);PINC #define OP2I(o,o1,v) iptr->opc=(o);iptr->op1=(o1);iptr->val.i=(v);PINC #define OP2A(o,o1,v) iptr->opc=(o);iptr->op1=(o1);iptr->val.a=(v);PINC #define BUILTIN1(v,t) isleafmethod=false;iptr->opc=ICMD_BUILTIN1;iptr->op1=t;\ iptr->val.a=(v);PINC #define BUILTIN2(v,t) isleafmethod=false;iptr->opc=ICMD_BUILTIN2;iptr->op1=t;\ iptr->val.a=(v);PINC #define BUILTIN3(v,t) isleafmethod=false;iptr->opc=ICMD_BUILTIN3;iptr->op1=t;\ iptr->val.a=(v);PINC /* block generating and checking macros */ #define block_insert(i) \ do { \ if (!(block_index[(i)] & 1)) { \ b_count++; \ block_index[(i)] |= 1; \ } \ } while (0) /* FIXME really use cumjcodelength for the bound_checkers ? */ #define bound_check(i) \ do { \ if (i < 0 || i >= cumjcodelength) { \ panic("branch target out of code-boundary"); \ } \ } while (0) #define bound_check1(i) \ do { \ if (i < 0 || i > cumjcodelength) { \ panic("branch target out of code-boundary"); \ } \ } while (0) static xtable* fillextable(xtable* extable, exceptiontable *raw_extable, int exceptiontablelength, int *label_index, int *block_count) { int b_count, i, p; if (exceptiontablelength == 0) return extable; b_count = *block_count; for (i = 0; i < exceptiontablelength; i++) { p = raw_extable[i].startpc; if (label_index != NULL) p = label_index[p]; extable[i].startpc = p; bound_check(p); block_insert(p); p = raw_extable[i].endpc; if (label_index != NULL) p = label_index[p]; extable[i].endpc = p; bound_check1(p); if (p < cumjcodelength) block_insert(p); p = raw_extable[i].handlerpc; if (label_index != NULL) p = label_index[p]; extable[i].handlerpc = p; bound_check(p); block_insert(p); extable[i].catchtype = raw_extable[i].catchtype; extable[i].next = NULL; extable[i].down = &extable[i+1]; } *block_count = b_count; return &extable[i]; /* return the next free xtable* */ } void parse() { int p; /* java instruction counter */ int nextp; /* start of next java instruction */ int opcode; /* java opcode */ int i; /* temporary for different uses (counters) */ int ipc = 0; /* intermediate instruction counter */ int b_count = 0; /* basic block counter */ int s_count = 0; /* stack element counter */ bool blockend = false; /* true if basic block end has been reached */ bool iswide = false; /* true if last instruction was a wide */ instruction *iptr; /* current pointer into instruction array */ int gp; /* global java instruction counter */ /* inlining info for current method */ inlining_methodinfo *inlinfo = inlining_rootinfo; inlining_methodinfo *tmpinlinf; int nextgp = -1; /* start of next method to be inlined */ int *label_index = NULL; /* label redirection table */ int firstlocal = 0; /* first local variable of method */ xtable* nextex; /* points next free entry in extable */ bool useinltmp; /* INLINING */ if (useinlining) { label_index = inlinfo->label_index; maxstack = cummaxstack; exceptiontablelength = cumextablelength; } useinltmp = useinlining; /* FIXME remove this after debugging */ /*useinlining = false;*/ /* and merge the if-statements */ if (!useinlining) { cumjcodelength = jcodelength; } else { tmpinlinf = (inlining_methodinfo*) list_first(inlinfo->inlinedmethods); if (tmpinlinf != NULL) nextgp = tmpinlinf->startgp; } if ((opt_rt || opt_xta || opt_vta) && (pOpcodes == 2 || pOpcodes == 3)) { printf("PARSE method name ="); utf_display(method->class->name); printf("."); method_display(method); printf(">\n\n"); fflush(stdout); } if (opt_rt || opt_xta) { RT_jit_parse(method); } else { if (opt_vta) printf("VTA requested, but not yet implemented\n"); } /* allocate instruction array and block index table */ /* 1 additional for end ipc and 3 for loop unrolling */ block_index = DMNEW(int, cumjcodelength + 4); /* 1 additional for TRACEBUILTIN and 4 for MONITORENTER/EXIT */ /* additional MONITOREXITS are reached by branches which are 3 bytes */ iptr = instr = DMNEW(instruction, cumjcodelength + 5); /* initialize block_index table (unrolled four times) */ { int *ip; for (i = 0, ip = block_index; i <= cumjcodelength; i += 4, ip += 4) { ip[0] = 0; ip[1] = 0; ip[2] = 0; ip[3] = 0; } } /* compute branch targets of exception table */ extable = DMNEW(xtable, exceptiontablelength + 1); /* for (i = 0; i < method->exceptiontablelength; i++) { p = extable[i].startpc = raw_extable[i].startpc; if (useinlining) p = label_index[p]; bound_check(p); block_insert(p); p = extable[i].endpc = raw_extable[i].endpc; if (useinlining) p = label_index[p]; bound_check1(p); if (p < cumjcodelength) block_insert(p); p = extable[i].handlerpc = raw_extable[i].handlerpc; bound_check(p); block_insert(p); extable[i].catchtype = raw_extable[i].catchtype; extable[i].next = NULL; extable[i].down = &extable[i+1]; } */ nextex = fillextable(extable, raw_extable, method->exceptiontablelength, label_index, &b_count); s_count = 1 + exceptiontablelength; /* initialize stack element counter */ #ifdef USE_THREADS if (checksync && (method->flags & ACC_SYNCHRONIZED)) { isleafmethod = false; } #endif /* scan all java instructions */ for (p = 0, gp = 0; p < jcodelength; gp += (nextp - p), p = nextp) { /* DEBUG printf("p:%d gp:%d ",p,gp); */ /*INLINING*/ if ((useinlining) && (gp == nextgp)) { u1 *tptr; bool *readonly = NULL; opcode = code_get_u1(p); nextp = p += jcommandsize[opcode]; tmpinlinf = list_first(inlinfo->inlinedmethods); firstlocal = tmpinlinf->firstlocal; label_index = tmpinlinf->label_index; readonly = tmpinlinf->readonly; for (i = 0, tptr = tmpinlinf->method->paramtypes + tmpinlinf->method->paramcount - 1; i < tmpinlinf->method->paramcount; i++, tptr--) { int op; if ((i == 0) && inlineparamopt) { OP1(ICMD_CLEAR_ARGREN, firstlocal); } if (!inlineparamopt || !readonly[i]) { op = ICMD_ISTORE; } else { op = ICMD_READONLY_ARG; } op += *tptr; OP1(op, firstlocal + tmpinlinf->method->paramcount - 1 - i); /* block_index[gp] |= (ipc << 1);*/ /*FIXME: necessary ? */ } inlining_save_compiler_variables(); inlining_set_compiler_variables(tmpinlinf); if (inlinfo->inlinedmethods == NULL) { gp = -1; } else { tmpinlinf = list_first(inlinfo->inlinedmethods); nextgp = (tmpinlinf != NULL) ? tmpinlinf->startgp : -1; } if (method->exceptiontablelength > 0) nextex = fillextable(nextex, method->exceptiontable, method->exceptiontablelength, label_index, &b_count); continue; } opcode = code_get_u1(p); /* fetch op code */ if (opt_rt && (pOpcodes == 2 || pOpcodes == 3)) { printf("Parse<%i> p=%i<%i< opcode=<%i> %s\n", pOpcodes, p, rt_jcodelength, opcode, icmd_names[opcode]); } block_index[gp] |= (ipc << 1); /* store intermediate count */ if (blockend) { block_insert(gp); /* start new block */ blockend = false; } nextp = p + jcommandsize[opcode]; /* compute next instruction start */ s_count += stackreq[opcode]; /* compute stack element count */ switch (opcode) { case JAVA_NOP: break; /* pushing constants onto the stack p */ case JAVA_BIPUSH: LOADCONST_I(code_get_s1(p+1)); break; case JAVA_SIPUSH: LOADCONST_I(code_get_s2(p+1)); break; case JAVA_LDC1: i = code_get_u1(p+1); goto pushconstantitem; case JAVA_LDC2: case JAVA_LDC2W: i = code_get_u2(p + 1); pushconstantitem: if (i >= class->cpcount) panic ("Attempt to access constant outside range"); switch (class->cptags[i]) { case CONSTANT_Integer: LOADCONST_I(((constant_integer*) (class->cpinfos[i]))->value); break; case CONSTANT_Long: LOADCONST_L(((constant_long*) (class->cpinfos[i]))->value); break; case CONSTANT_Float: LOADCONST_F(((constant_float*) (class->cpinfos[i]))->value); break; case CONSTANT_Double: LOADCONST_D(((constant_double*) (class->cpinfos[i]))->value); break; case CONSTANT_String: LOADCONST_A(literalstring_new((utf*) (class->cpinfos[i]))); break; default: panic("Invalid constant type to push"); } break; case JAVA_ACONST_NULL: LOADCONST_A(NULL); break; case JAVA_ICONST_M1: case JAVA_ICONST_0: case JAVA_ICONST_1: case JAVA_ICONST_2: case JAVA_ICONST_3: case JAVA_ICONST_4: case JAVA_ICONST_5: LOADCONST_I(opcode - JAVA_ICONST_0); break; case JAVA_LCONST_0: case JAVA_LCONST_1: LOADCONST_L(opcode - JAVA_LCONST_0); break; case JAVA_FCONST_0: case JAVA_FCONST_1: case JAVA_FCONST_2: LOADCONST_F(opcode - JAVA_FCONST_0); break; case JAVA_DCONST_0: case JAVA_DCONST_1: LOADCONST_D(opcode - JAVA_DCONST_0); break; /* loading variables onto the stack */ case JAVA_ILOAD: case JAVA_LLOAD: case JAVA_FLOAD: case JAVA_DLOAD: case JAVA_ALOAD: if (!iswide) { i = code_get_u1(p + 1); } else { i = code_get_u2(p + 1); nextp = p + 3; iswide = false; } OP1(opcode, i + firstlocal); break; case JAVA_ILOAD_0: case JAVA_ILOAD_1: case JAVA_ILOAD_2: case JAVA_ILOAD_3: OP1(ICMD_ILOAD, opcode - JAVA_ILOAD_0 + firstlocal); break; case JAVA_LLOAD_0: case JAVA_LLOAD_1: case JAVA_LLOAD_2: case JAVA_LLOAD_3: OP1(ICMD_LLOAD, opcode - JAVA_LLOAD_0 + firstlocal); break; case JAVA_FLOAD_0: case JAVA_FLOAD_1: case JAVA_FLOAD_2: case JAVA_FLOAD_3: OP1(ICMD_FLOAD, opcode - JAVA_FLOAD_0 + firstlocal); break; case JAVA_DLOAD_0: case JAVA_DLOAD_1: case JAVA_DLOAD_2: case JAVA_DLOAD_3: OP1(ICMD_DLOAD, opcode - JAVA_DLOAD_0 + firstlocal); break; case JAVA_ALOAD_0: case JAVA_ALOAD_1: case JAVA_ALOAD_2: case JAVA_ALOAD_3: OP1(ICMD_ALOAD, opcode - JAVA_ALOAD_0 + firstlocal); break; /* storing stack values into local variables */ case JAVA_ISTORE: case JAVA_LSTORE: case JAVA_FSTORE: case JAVA_DSTORE: case JAVA_ASTORE: if (!iswide) { i = code_get_u1(p + 1); } else { i = code_get_u2(p + 1); iswide = false; nextp = p + 3; } OP1(opcode, i + firstlocal); break; case JAVA_ISTORE_0: case JAVA_ISTORE_1: case JAVA_ISTORE_2: case JAVA_ISTORE_3: OP1(ICMD_ISTORE, opcode - JAVA_ISTORE_0 + firstlocal); break; case JAVA_LSTORE_0: case JAVA_LSTORE_1: case JAVA_LSTORE_2: case JAVA_LSTORE_3: OP1(ICMD_LSTORE, opcode - JAVA_LSTORE_0 + firstlocal); break; case JAVA_FSTORE_0: case JAVA_FSTORE_1: case JAVA_FSTORE_2: case JAVA_FSTORE_3: OP1(ICMD_FSTORE, opcode - JAVA_FSTORE_0 + firstlocal); break; case JAVA_DSTORE_0: case JAVA_DSTORE_1: case JAVA_DSTORE_2: case JAVA_DSTORE_3: OP1(ICMD_DSTORE, opcode - JAVA_DSTORE_0 + firstlocal); break; case JAVA_ASTORE_0: case JAVA_ASTORE_1: case JAVA_ASTORE_2: case JAVA_ASTORE_3: OP1(ICMD_ASTORE, opcode - JAVA_ASTORE_0 + firstlocal); break; case JAVA_IINC: { int v; if (!iswide) { i = code_get_u1(p + 1); v = code_get_s1(p + 2); } else { i = code_get_u2(p + 1); v = code_get_s2(p + 3); iswide = false; nextp = p + 5; } OP2I(opcode, i + firstlocal, v); } break; /* wider index for loading, storing and incrementing */ case JAVA_WIDE: iswide = true; nextp = p + 1; break; /* managing arrays ************************************************/ case JAVA_NEWARRAY: OP2I(ICMD_CHECKASIZE, 0, 0); switch (code_get_s1(p + 1)) { case 4: BUILTIN1((functionptr) builtin_newarray_boolean, TYPE_ADR); break; case 5: BUILTIN1((functionptr) builtin_newarray_char, TYPE_ADR); break; case 6: BUILTIN1((functionptr) builtin_newarray_float, TYPE_ADR); break; case 7: BUILTIN1((functionptr) builtin_newarray_double, TYPE_ADR); break; case 8: BUILTIN1((functionptr) builtin_newarray_byte, TYPE_ADR); break; case 9: BUILTIN1((functionptr) builtin_newarray_short, TYPE_ADR); break; case 10: BUILTIN1((functionptr) builtin_newarray_int, TYPE_ADR); break; case 11: BUILTIN1((functionptr) builtin_newarray_long, TYPE_ADR); break; default: panic("Invalid array-type to create"); } break; case JAVA_ANEWARRAY: OP2I(ICMD_CHECKASIZE, 0, 0); i = code_get_u2(p + 1); { classinfo *component = (classinfo*)class_getconstant(class, i, CONSTANT_Class); LOADCONST_A(class_array_of(component)->vftbl); s_count++; #if defined(__I386__) BUILTIN2((functionptr) asm_builtin_newarray, TYPE_ADR); #else BUILTIN2((functionptr)builtin_newarray, TYPE_ADR); #endif } break; case JAVA_MULTIANEWARRAY: isleafmethod=false; i = code_get_u2(p + 1); { int v = code_get_u1(p + 3); vftbl *arrayvftbl = ((classinfo*)class_getconstant (class, i, CONSTANT_Class))->vftbl; OP2A(opcode, v, arrayvftbl); } break; case JAVA_IFEQ: case JAVA_IFLT: case JAVA_IFLE: case JAVA_IFNE: case JAVA_IFGT: case JAVA_IFGE: case JAVA_IFNULL: case JAVA_IFNONNULL: case JAVA_IF_ICMPEQ: case JAVA_IF_ICMPNE: case JAVA_IF_ICMPLT: case JAVA_IF_ICMPGT: case JAVA_IF_ICMPLE: case JAVA_IF_ICMPGE: case JAVA_IF_ACMPEQ: case JAVA_IF_ACMPNE: case JAVA_GOTO: case JAVA_JSR: i = p + code_get_s2(p + 1); if (useinlining) { debug_writebranch; i = label_index[i]; } bound_check(i); block_insert(i); blockend = true; OP1(opcode, i); break; case JAVA_GOTO_W: case JAVA_JSR_W: i = p + code_get_s4(p + 1); if (useinlining) { debug_writebranch; i = label_index[i]; } bound_check(i); block_insert(i); blockend = true; OP1(opcode, i); break; case JAVA_RET: if (!iswide) { i = code_get_u1(p + 1); } else { i = code_get_u2(p + 1); nextp = p + 3; iswide = false; } blockend = true; /* if (isinlinedmethod) { OP1(ICMD_GOTO, inlinfo->stopgp); break; }*/ OP1(opcode, i + firstlocal); break; case JAVA_IRETURN: case JAVA_LRETURN: case JAVA_FRETURN: case JAVA_DRETURN: case JAVA_ARETURN: case JAVA_RETURN: if (isinlinedmethod) { /* if (p==jcodelength-1) {*/ /* return is at end of inlined method */ /* OP(ICMD_NOP); */ /* break; */ /* } */ blockend = true; OP1(ICMD_GOTO, inlinfo->stopgp); break; } blockend = true; OP(opcode); break; case JAVA_ATHROW: blockend = true; OP(opcode); break; /* table jumps ********************************/ case JAVA_LOOKUPSWITCH: { s4 num, j; s4 *tablep; blockend = true; nextp = ALIGN((p + 1), 4); if (!useinlining) { tablep = (s4*)(jcode + nextp); } else { num = code_get_u4(nextp + 4); tablep = DMNEW(s4, num * 2 + 2); } OP2A(opcode, 0, tablep); /* default target */ j = p + code_get_s4(nextp); if (useinlining) j = label_index[j]; *tablep = j; /* restore for little endian */ tablep++; nextp += 4; bound_check(j); block_insert(j); /* number of pairs */ num = code_get_u4(nextp); *tablep = num; tablep++; nextp += 4; for (i = 0; i < num; i++) { /* value */ j = code_get_s4(nextp); *tablep = j; /* restore for little endian */ tablep++; nextp += 4; /* target */ j = p + code_get_s4(nextp); if (useinlining) j = label_index[j]; *tablep = j; /* restore for little endian */ tablep++; nextp += 4; bound_check(j); block_insert(j); } break; } case JAVA_TABLESWITCH: { s4 num, j; s4 *tablep; blockend = true; nextp = ALIGN((p + 1), 4); if (!useinlining) { tablep = (s4*)(jcode + nextp); } else { num = code_get_u4(nextp + 8) - code_get_u4(nextp + 4); tablep = DMNEW(s4, num + 1 + 3); } OP2A(opcode, 0, tablep); /* default target */ j = p + code_get_s4(nextp); if (useinlining) j = label_index[j]; *tablep = j; /* restore for little endian */ tablep++; nextp += 4; bound_check(j); block_insert(j); /* lower bound */ j = code_get_s4(nextp); *tablep = j; /* restore for little endian */ tablep++; nextp += 4; /* upper bound */ num = code_get_s4(nextp); *tablep = num; /* restore for little endian */ tablep++; nextp += 4; num -= j; for (i = 0; i <= num; i++) { j = p + code_get_s4(nextp); if (useinlining) j = label_index[j]; *tablep = j; /* restore for little endian */ tablep++; nextp += 4; bound_check(j); block_insert(j); } break; } /* load and store of object fields *******************/ case JAVA_AASTORE: BUILTIN3((functionptr) asm_builtin_aastore, TYPE_VOID); break; case JAVA_PUTSTATIC: case JAVA_GETSTATIC: i = code_get_u2(p + 1); { constant_FMIref *fr; fieldinfo *fi; fr = class_getconstant (class, i, CONSTANT_Fieldref); fi = class_findfield (fr->class, fr->name, fr->descriptor); compiler_addinitclass (fr->class); OP2A(opcode, fi->type, fi); } break; case JAVA_PUTFIELD: case JAVA_GETFIELD: i = code_get_u2(p + 1); { constant_FMIref *fr; fieldinfo *fi; fr = class_getconstant (class, i, CONSTANT_Fieldref); fi = class_findfield (fr->class, fr->name, fr->descriptor); OP2A(opcode, fi->type, fi); } break; /* method invocation *****/ case JAVA_INVOKESTATIC: i = code_get_u2(p + 1); { constant_FMIref *mr; methodinfo *mi; mr = class_getconstant (class, i, CONSTANT_Methodref); mi = class_findmethod (mr->class, mr->name, mr->descriptor); /*RTAprint*/ if (((pOpcodes == 2) || (pOpcodes == 3)) && opt_rt) /*RTAprint*/ {printf(" method name ="); /*RTAprint*/ utf_display(mi->class->name); printf("."); /*RTAprint*/ utf_display(mi->name);printf("\tINVOKE STATIC\n"); /*RTAprint*/ fflush(stdout);} if (!(mi->flags & ACC_STATIC)) panic ("Static/Nonstatic mismatch calling static method"); descriptor2types(mi); isleafmethod=false; OP2A(opcode, mi->paramcount, mi); } break; case JAVA_INVOKESPECIAL: case JAVA_INVOKEVIRTUAL: i = code_get_u2(p + 1); { constant_FMIref *mr; methodinfo *mi; mr = class_getconstant (class, i, CONSTANT_Methodref); mi = class_findmethod (mr->class, mr->name, mr->descriptor); /*RTAprint*/ if (((pOpcodes == 2) || (pOpcodes == 3)) && opt_rt) /*RTAprint*/ {printf(" method name ="); method_display(mi); /*RTAprint*/ utf_display(mi->class->name); printf("."); /*RTAprint*/ utf_display(mi->name);printf("\tINVOKE SPECIAL/VIRTUAL\n"); /*RTAprint*/ fflush(stdout);} if (mi->flags & ACC_STATIC) panic ("Static/Nonstatic mismatch calling static method"); descriptor2types(mi); isleafmethod=false; OP2A(opcode, mi->paramcount, mi); } break; case JAVA_INVOKEINTERFACE: i = code_get_u2(p + 1); { constant_FMIref *mr; methodinfo *mi; mr = class_getconstant (class, i, CONSTANT_InterfaceMethodref); mi = class_findmethod (mr->class, mr->name, mr->descriptor); if (mi->flags & ACC_STATIC) panic ("Static/Nonstatic mismatch calling static method"); descriptor2types(mi); isleafmethod=false; OP2A(opcode, mi->paramcount, mi); } break; /* miscellaneous object operations *******/ case JAVA_NEW: i = code_get_u2 (p+1); LOADCONST_A(class_getconstant(class, i, CONSTANT_Class)); s_count++; BUILTIN1((functionptr) builtin_new, TYPE_ADR); break; case JAVA_CHECKCAST: i = code_get_u2(p+1); { classinfo *cls = (classinfo*)class_getconstant(class, i, CONSTANT_Class); if (cls->vftbl->arraydesc) { /* array type cast-check */ LOADCONST_A(cls->vftbl); s_count++; BUILTIN2((functionptr) asm_builtin_checkarraycast, TYPE_ADR); } else { /* object type cast-check */ /* + LOADCONST_A(class_getconstant(class, i, CONSTANT_Class)); + s_count++; + BUILTIN2((functionptr) asm_builtin_checkcast, TYPE_ADR); + */ OP2A(opcode, 1, cls); } } break; case JAVA_INSTANCEOF: i = code_get_u2(p+1); { classinfo *cls = (classinfo*)class_getconstant(class, i, CONSTANT_Class); if (cls->vftbl->arraydesc) { /* array type cast-check */ LOADCONST_A(cls->vftbl); s_count++; #if defined(__I386__) BUILTIN2((functionptr) asm_builtin_arrayinstanceof, TYPE_INT); #else BUILTIN2((functionptr) builtin_arrayinstanceof, TYPE_INT); #endif } else { /* object type cast-check */ /* LOADCONST_A(class_getconstant(class, i, CONSTANT_Class)); s_count++; BUILTIN2((functionptr) builtin_instanceof, TYPE_INT); + */ OP2A(opcode, 1, cls); } } break; case JAVA_MONITORENTER: #ifdef USE_THREADS if (checksync) { BUILTIN1((functionptr) asm_builtin_monitorenter, TYPE_VOID); } else #endif { OP(ICMD_NULLCHECKPOP); } break; case JAVA_MONITOREXIT: #ifdef USE_THREADS if (checksync) { BUILTIN1((functionptr) asm_builtin_monitorexit, TYPE_VOID); } else #endif { OP(ICMD_POP); } break; /* any other basic operation **************************************/ case JAVA_IDIV: OP(opcode); break; case JAVA_IREM: OP(opcode); break; case JAVA_LDIV: OP(opcode); break; case JAVA_LREM: OP(opcode); break; case JAVA_FREM: #if defined(__I386__) OP(opcode); #else BUILTIN2((functionptr) builtin_frem, TYPE_FLOAT); #endif break; case JAVA_DREM: #if defined(__I386__) OP(opcode); #else BUILTIN2((functionptr) builtin_drem, TYPE_DOUBLE); #endif break; case JAVA_F2I: #if defined(__ALPHA__) if (!opt_noieee) { BUILTIN1((functionptr) builtin_f2i, TYPE_INT); } else #endif { OP(opcode); } break; case JAVA_F2L: #if defined(__ALPHA__) if (!opt_noieee) { BUILTIN1((functionptr) builtin_f2l, TYPE_LONG); } else #endif { OP(opcode); } break; case JAVA_D2I: #if defined(__ALPHA__) if (!opt_noieee) { BUILTIN1((functionptr) builtin_d2i, TYPE_INT); } else #endif { OP(opcode); } break; case JAVA_D2L: #if defined(__ALPHA__) if (!opt_noieee) { BUILTIN1((functionptr) builtin_d2l, TYPE_LONG); } else #endif { OP(opcode); } break; case JAVA_BREAKPOINT: panic("Illegal opcode Breakpoint encountered"); break; case 203: case 204: case 205: case 206: case 207: case 208: case 209: case 210: case 211: case 212: case 213: case 214: case 215: case 216: case 217: case 218: case 219: case 220: case 221: case 222: case 223: case 224: case 225: case 226: case 227: case 228: case 229: case 230: case 231: case 232: case 233: case 234: case 235: case 236: case 237: case 238: case 239: case 240: case 241: case 242: case 243: case 244: case 245: case 246: case 247: case 248: case 249: case 250: case 251: case 252: case 253: case 254: case 255: printf("Illegal opcode %d at instr %d", opcode, ipc); panic("encountered"); break; default: OP(opcode); break; } /* end switch */ /* INLINING */ if (isinlinedmethod && p == jcodelength - 1) { /* end of an inlined method */ /* printf("setting gp from %d to %d\n",gp, inlinfo->stopgp); */ gp = inlinfo->stopgp; inlining_restore_compiler_variables(); list_remove(inlinfo->inlinedmethods, list_first(inlinfo->inlinedmethods)); if (inlinfo->inlinedmethods == NULL) { nextgp = -1; } else { tmpinlinf = list_first(inlinfo->inlinedmethods); nextgp = (tmpinlinf != NULL) ? tmpinlinf->startgp : -1; } /* printf("nextpgp: %d\n", nextgp); */ label_index=inlinfo->label_index; firstlocal = inlinfo->firstlocal; } } /* end for */ if (p != jcodelength) panic("Command-sequence crosses code-boundary"); if (!blockend) panic("Code does not end with branch/return/athrow - stmt"); /* adjust block count if target 0 is not first intermediate instruction */ if (!block_index[0] || (block_index[0] > 1)) b_count++; /* copy local to global variables */ instr_count = ipc; block_count = b_count; stack_count = s_count + block_count * maxstack; /* allocate stack table */ stack = DMNEW(stackelement, stack_count); { basicblock *bptr; bptr = block = DMNEW(basicblock, b_count + 1); /* one more for end ipc */ b_count = 0; c_debug_nr = 0; /* additional block if target 0 is not first intermediate instruction */ if (!block_index[0] || (block_index[0] > 1)) { bptr->iinstr = instr; bptr->mpc = -1; bptr->flags = -1; bptr->type = BBTYPE_STD; bptr->branchrefs = NULL; bptr->pre_count = 0; bptr->debug_nr = c_debug_nr++; bptr++; b_count++; (bptr - 1)->next = bptr; } /* allocate blocks */ for (p = 0; p < cumjcodelength; p++) { if (block_index[p] & 1) { bptr->iinstr = instr + (block_index[p] >> 1); bptr->debug_nr = c_debug_nr++; if (b_count != 0) (bptr - 1)->icount = bptr->iinstr - (bptr - 1)->iinstr; bptr->mpc = -1; bptr->flags = -1; bptr->lflags = 0; bptr->type = BBTYPE_STD; bptr->branchrefs = NULL; block_index[p] = b_count; bptr->pre_count = 0; bptr++; b_count++; (bptr - 1)->next = bptr; } } /* allocate additional block at end */ bptr->instack = bptr->outstack = NULL; bptr->indepth = bptr->outdepth = 0; bptr->iinstr = NULL; (bptr - 1)->icount = (instr + instr_count) - (bptr - 1)->iinstr; bptr->icount = 0; bptr->mpc = -1; bptr->flags = -1; bptr->lflags = 0; bptr->type = BBTYPE_STD; bptr->branchrefs = NULL; bptr->pre_count = 0; bptr->debug_nr = c_debug_nr++; (bptr - 1)->next = bptr; bptr->next = NULL; last_block = bptr; if (exceptiontablelength > 0) extable[exceptiontablelength - 1].down = NULL; else extable = NULL; for (i = 0; i < exceptiontablelength; ++i) { p = extable[i].startpc; extable[i].start = block + block_index[p]; p = extable[i].endpc; extable[i].end = block + block_index[p]; p = extable[i].handlerpc; extable[i].handler = block + block_index[p]; } } if (useinlining) inlining_cleanup(); useinlining = useinltmp; } /* * 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: */