define rp if ruby_dummy_gdb_enums.special_consts end if (VALUE)($arg0) & RUBY_FIXNUM_FLAG printf "FIXNUM: %ld\n", (long)($arg0) >> 1 else if ((VALUE)($arg0) & ~(~(VALUE)0<> RUBY_SPECIAL_SHIFT) if $id == '!' || $id == '+' || $id == '-' || $id == '*' || $id == '/' || $id == '%' || $id == '<' || $id == '>' || $id == '`' printf "SYMBOL(:%c)\n", $id else if $id == idDot2 echo SYMBOL(:..)\n else if $id == idDot3 echo SYMBOL(:...)\n else if $id == idUPlus echo SYMBOL(:+@)\n else if $id == idUMinus echo SYMBOL(:-@)\n else if $id == idPow echo SYMBOL(:**)\n else if $id == idCmp echo SYMBOL(:<=>)\n else if $id == idLTLT echo SYMBOL(:<<)\n else if $id == idLE echo SYMBOL(:<=)\n else if $id == idGE echo SYMBOL(:>=)\n else if $id == idEq echo SYMBOL(:==)\n else if $id == idEqq echo SYMBOL(:===)\n else if $id == idNeq echo SYMBOL(:!=)\n else if $id == idEqTilde echo SYMBOL(:=~)\n else if $id == idNeqTilde echo SYMBOL(:!~)\n else if $id == idAREF echo SYMBOL(:[])\n else if $id == idASET echo SYMBOL(:[]=)\n else printf "SYMBOL(%ld)\n", $id end end end end end end end end end end end end end end end end end else if ($arg0) == RUBY_Qfalse echo false\n else if ($arg0) == RUBY_Qtrue echo true\n else if ($arg0) == RUBY_Qnil echo nil\n else if ($arg0) == RUBY_Qundef echo undef\n else if (VALUE)($arg0) & RUBY_IMMEDIATE_MASK echo immediate\n else set $flags = ((struct RBasic*)($arg0))->flags if ($flags & RUBY_T_MASK) == RUBY_T_NONE printf "T_NONE: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_NIL printf "T_NIL: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_OBJECT printf "T_OBJECT: " print (struct RObject *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_CLASS printf "T_CLASS%s: ", ($flags & RUBY_FL_SINGLETON) ? "*" : "" print (struct RClass *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_ICLASS printf "T_ICLASS: " print (struct RClass *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_MODULE printf "T_MODULE: " print (struct RClass *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_FLOAT printf "T_FLOAT: %.16g ", (((struct RFloat*)($arg0))->float_value) print (struct RFloat *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_STRING printf "T_STRING: " set print address off output (char *)(($flags & RUBY_FL_USER1) ? \ ((struct RString*)($arg0))->as.heap.ptr : \ ((struct RString*)($arg0))->as.ary) set print address on printf " bytesize:%ld ", ($flags & RUBY_FL_USER1) ? \ ((struct RString*)($arg0))->as.heap.len : \ (($flags & (RUBY_FL_USER2|RUBY_FL_USER3|RUBY_FL_USER4|RUBY_FL_USER5|RUBY_FL_USER6)) >> RUBY_FL_USHIFT+2) if !($flags & RUBY_FL_USER1) printf "(embed) " else if ($flags & RUBY_FL_USER2) printf "(shared) " end if ($flags & RUBY_FL_USER3) printf "(assoc) " end end printf "encoding:%d ", ($flags & RUBY_ENCODING_MASK) >> RUBY_ENCODING_SHIFT if ($flags & RUBY_ENC_CODERANGE_MASK) == 0 printf "coderange:unknown " else if ($flags & RUBY_ENC_CODERANGE_MASK) == RUBY_ENC_CODERANGE_7BIT printf "coderange:7bit " else if ($flags & RUBY_ENC_CODERANGE_MASK) == RUBY_ENC_CODERANGE_VALID printf "coderange:valid " else printf "coderange:broken " end end end print (struct RString *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_REGEXP set $regsrc = ((struct RRegexp*)($arg0))->src set $rsflags = ((struct RBasic*)$regsrc)->flags printf "T_REGEXP: " set print address off output (char *)(($rsflags & RUBY_FL_USER1) ? \ ((struct RString*)$regsrc)->as.heap.ptr : \ ((struct RString*)$regsrc)->as.ary) set print address on printf " len:%ld ", ($rsflags & RUBY_FL_USER1) ? \ ((struct RString*)$regsrc)->as.heap.len : \ (($rsflags & (RUBY_FL_USER2|RUBY_FL_USER3|RUBY_FL_USER4|RUBY_FL_USER5|RUBY_FL_USER6)) >> RUBY_FL_USHIFT+2) if $flags & RUBY_FL_USER6 printf "(none) " end if $flags & RUBY_FL_USER5 printf "(literal) " end if $flags & RUBY_FL_USER4 printf "(fixed) " end printf "encoding:%d ", ($flags & RUBY_ENCODING_MASK) >> RUBY_ENCODING_SHIFT print (struct RRegexp *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_ARRAY if ($flags & RUBY_FL_USER1) set $len = (($flags & (RUBY_FL_USER3|RUBY_FL_USER4)) >> (RUBY_FL_USHIFT+3)) printf "T_ARRAY: len=%ld ", $len printf "(embed) " if ($len == 0) printf "{(empty)} " else output/x *((VALUE*)((struct RArray*)($arg0))->as.ary) @ $len printf " " end else set $len = ((struct RArray*)($arg0))->as.heap.len printf "T_ARRAY: len=%ld ", $len if ($flags & RUBY_FL_USER2) printf "(shared) shared=" output/x ((struct RArray*)($arg0))->as.heap.aux.shared printf " " else printf "(ownership) capa=%ld ", ((struct RArray*)($arg0))->as.heap.aux.capa end if ($len == 0) printf "{(empty)} " else output/x *((VALUE*)((struct RArray*)($arg0))->as.heap.ptr) @ $len printf " " end end print (struct RArray *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_FIXNUM printf "T_FIXNUM: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_HASH printf "T_HASH: ", if ((struct RHash *)($arg0))->ntbl printf "len=%ld ", ((struct RHash *)($arg0))->ntbl->num_entries end print (struct RHash *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_STRUCT printf "T_STRUCT: len=%ld ", \ (($flags & (RUBY_FL_USER1|RUBY_FL_USER2)) ? \ ($flags & (RUBY_FL_USER1|RUBY_FL_USER2)) >> (RUBY_FL_USHIFT+1) : \ ((struct RStruct *)($arg0))->as.heap.len) print (struct RStruct *)($arg0) x/xw (($flags & (RUBY_FL_USER1|RUBY_FL_USER2)) ? \ ((struct RStruct *)($arg0))->as.ary : \ ((struct RStruct *)($arg0))->as.heap.ptr) else if ($flags & RUBY_T_MASK) == RUBY_T_BIGNUM printf "T_BIGNUM: sign=%d len=%ld ", \ (($flags & RUBY_FL_USER1) != 0), \ (($flags & RUBY_FL_USER2) ? \ ($flags & (RUBY_FL_USER5|RUBY_FL_USER4|RUBY_FL_USER3)) >> (RUBY_FL_USHIFT+3) : \ ((struct RBignum*)($arg0))->as.heap.len) if $flags & RUBY_FL_USER2 printf "(embed) " end print (struct RBignum *)($arg0) x/xw (($flags & RUBY_FL_USER2) ? \ ((struct RBignum*)($arg0))->as.ary : \ ((struct RBignum*)($arg0))->as.heap.digits) else if ($flags & RUBY_T_MASK) == RUBY_T_RATIONAL printf "T_RATIONAL: " print (struct RRational *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_COMPLEX printf "T_COMPLEX: " print (struct RComplex *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_FILE printf "T_FILE: " print (struct RFile *)($arg0) output *((struct RFile *)($arg0))->fptr printf "\n" else if ($flags & RUBY_T_MASK) == RUBY_T_TRUE printf "T_TRUE: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_FALSE printf "T_FALSE: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_DATA if ((struct RTypedData *)($arg0))->typed_flag == 1 printf "T_DATA(%s): ", ((struct RTypedData *)($arg0))->type->wrap_struct_name print (struct RTypedData *)($arg0) else printf "T_DATA: " print (struct RData *)($arg0) end else if ($flags & RUBY_T_MASK) == RUBY_T_MATCH printf "T_MATCH: " print (struct RMatch *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_SYMBOL printf "T_SYMBOL: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_UNDEF printf "T_UNDEF: " print (struct RBasic *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_NODE printf "T_NODE(" output (enum node_type)(($flags&RUBY_NODE_TYPEMASK)>>RUBY_NODE_TYPESHIFT) printf "): " print *(NODE *)($arg0) else if ($flags & RUBY_T_MASK) == RUBY_T_ZOMBIE printf "T_ZOMBIE: " print (struct RData *)($arg0) else printf "unknown: " print (struct RBasic *)($arg0) end end end end end end end end end end end end end end end end end end end end end end end end end end end end end end end end end document rp Print a Ruby's VALUE. end define nd_type print (enum node_type)((((NODE*)($arg0))->flags&RUBY_NODE_TYPEMASK)>>RUBY_NODE_TYPESHIFT) end document nd_type Print a Ruby' node type. end define nd_file print ((NODE*)($arg0))->nd_file end document nd_file Print the source file name of a node. end define nd_line print ((unsigned int)((((NODE*)($arg0))->flags>>RUBY_NODE_LSHIFT)&RUBY_NODE_LMASK)) end document nd_line Print the source line number of a node. end # Print members of ruby node. define nd_head printf "u1.node: " rp ($arg0).u1.node end define nd_alen printf "u2.argc: " p ($arg0).u2.argc end define nd_next printf "u3.node: " rp ($arg0).u3.node end define nd_cond printf "u1.node: " rp ($arg0).u1.node end define nd_body printf "u2.node: " rp ($arg0).u2.node end define nd_else printf "u3.node: " rp ($arg0).u3.node end define nd_orig printf "u3.value: " rp ($arg0).u3.value end define nd_resq printf "u2.node: " rp ($arg0).u2.node end define nd_ensr printf "u3.node: " rp ($arg0).u3.node end define nd_1st printf "u1.node: " rp ($arg0).u1.node end define nd_2nd printf "u2.node: " rp ($arg0).u2.node end define nd_stts printf "u1.node: " rp ($arg0).u1.node end define nd_entry printf "u3.entry: " p ($arg0).u3.entry end define nd_vid printf "u1.id: " p ($arg0).u1.id end define nd_cflag printf "u2.id: " p ($arg0).u2.id end define nd_cval printf "u3.value: " rp ($arg0).u3.value end define nd_cnt printf "u3.cnt: " p ($arg0).u3.cnt end define nd_tbl printf "u1.tbl: " p ($arg0).u1.tbl end define nd_var printf "u1.node: " rp ($arg0).u1.node end define nd_ibdy printf "u2.node: " rp ($arg0).u2.node end define nd_iter printf "u3.node: " rp ($arg0).u3.node end define nd_value printf "u2.node: " rp ($arg0).u2.node end define nd_aid printf "u3.id: " p ($arg0).u3.id end define nd_lit printf "u1.value: " rp ($arg0).u1.value end define nd_frml printf "u1.node: " rp ($arg0).u1.node end define nd_rest printf "u2.argc: " p ($arg0).u2.argc end define nd_opt printf "u1.node: " rp ($arg0).u1.node end define nd_recv printf "u1.node: " rp ($arg0).u1.node end define nd_mid printf "u2.id: " p ($arg0).u2.id end define nd_args printf "u3.node: " rp ($arg0).u3.node end define nd_noex printf "u1.id: " p ($arg0).u1.id end define nd_defn printf "u3.node: " rp ($arg0).u3.node end define nd_old printf "u1.id: " p ($arg0).u1.id end define nd_new printf "u2.id: " p ($arg0).u2.id end define nd_cfnc printf "u1.cfunc: " p ($arg0).u1.cfunc end define nd_argc printf "u2.argc: " p ($arg0).u2.argc end define nd_cname printf "u1.id: " p ($arg0).u1.id end define nd_super printf "u3.node: " rp ($arg0).u3.node end define nd_modl printf "u1.id: " p ($arg0).u1.id end define nd_clss printf "u1.value: " rp ($arg0).u1.value end define nd_beg printf "u1.node: " rp ($arg0).u1.node end define nd_end printf "u2.node: " rp ($arg0).u2.node end define nd_state printf "u3.state: " p ($arg0).u3.state end define nd_rval printf "u2.value: " rp ($arg0).u2.value end define nd_nth printf "u2.argc: " p ($arg0).u2.argc end define nd_tag printf "u1.id: " p ($arg0).u1.id end define nd_tval printf "u2.value: " rp ($arg0).u2.value end define rb_p call rb_p($arg0) end define rb_numtable_entry set $rb_numtable_tbl = $arg0 set $rb_numtable_id = (st_data_t)$arg1 set $rb_numtable_key = 0 set $rb_numtable_rec = 0 if $rb_numtable_tbl->entries_packed set $rb_numtable_p = $rb_numtable_tbl->bins while $rb_numtable_p && $rb_numtable_p < $rb_numtable_tbl->bins+$rb_numtable_tbl->num_entries if (st_data_t)$rb_numtable_p[0] == $rb_numtable_id set $rb_numtable_key = (st_data_t)$rb_numtable_p[0] set $rb_numtable_rec = (st_data_t)$rb_numtable_p[1] set $rb_numtable_p = 0 else set $rb_numtable_p = $rb_numtable_p + 2 end end else set $rb_numtable_p = $rb_numtable_tbl->bins[$rb_numtable_id % $rb_numtable_tbl->num_bins] while $rb_numtable_p if $rb_numtable_p->key == $rb_numtable_id set $rb_numtable_key = $rb_numtable_p->key set $rb_numtable_rec = $rb_numtable_p->record set $rb_numtable_p = 0 else set $rb_numtable_p = $rb_numtable_p->next end end end end define rb_id2name rb_numtable_entry global_symbols.id_str (ID)$arg0 if $rb_numtable_rec rp $rb_numtable_rec else echo undef\n end end document rb_id2name Print the name of id end define rb_method_entry set $rb_method_entry_klass = (struct RClass *)$arg0 set $rb_method_entry_id = (ID)$arg1 set $rb_method_entry_me = (rb_method_entry_t *)0 while !$rb_method_entry_me && $rb_method_entry_klass rb_numtable_entry $rb_method_entry_klass->m_tbl $rb_method_entry_id set $rb_method_entry_me = (rb_method_entry_t *)$rb_numtable_rec if !$rb_method_entry_me set $rb_method_entry_klass = (struct RClass *)$rb_method_entry_klass->ptr->super end end if $rb_method_entry_me print *$rb_method_entry_klass print *$rb_method_entry_me else echo method not found\n end end document rb_method_entry Search method entry by class and id end define rb_classname call classname($arg0) rb_p $ print *(struct RClass*)($arg0) end define rb_backtrace call rb_backtrace() end define iseq if dummy_gdb_enums.special_consts end if ($arg0)->type == ISEQ_ELEMENT_NONE echo [none]\n end if ($arg0)->type == ISEQ_ELEMENT_LABEL print *(LABEL*)($arg0) end if ($arg0)->type == ISEQ_ELEMENT_INSN print *(INSN*)($arg0) if ((INSN*)($arg0))->insn_id != YARVINSN_jump set $i = 0 set $operand_size = ((INSN*)($arg0))->operand_size set $operands = ((INSN*)($arg0))->operands while $i < $operand_size rp $operands[$i++] end end end if ($arg0)->type == ISEQ_ELEMENT_ADJUST print *(ADJUST*)($arg0) end end define rb_ps rb_ps_vm ruby_current_vm end document rb_ps Dump all threads and their callstacks end define rb_ps_vm print $ps_vm = (rb_vm_t*)$arg0 set $ps_threads = (st_table*)$ps_vm->living_threads if $ps_threads->entries_packed set $ps_threads_i = 0 while $ps_threads_i < $ps_threads->num_entries set $ps_threads_key = (st_data_t)$ps_threads->bins[$ps_threads_i * 2] set $ps_threads_val = (st_data_t)$ps_threads->bins[$ps_threads_i * 2 + 1] rb_ps_thread $ps_threads_key $ps_threads_val set $ps_threads_i = $ps_threads_i + 1 end else set $ps_threads_ptr = (st_table_entry*)$ps_threads->head while $ps_threads_ptr set $ps_threads_key = (st_data_t)$ps_threads_ptr->key set $ps_threads_val = (st_data_t)$ps_threads_ptr->record rb_ps_thread $ps_threads_key $ps_threads_val set $ps_threads_ptr = (st_table_entry*)$ps_threads_ptr->fore end end end document rb_ps_vm Dump all threads in a (rb_vm_t*) and their callstacks end define rb_ps_thread set $ps_thread = (struct RTypedData*)$arg0 set $ps_thread_id = $arg1 print $ps_thread_th = (rb_thread_t*)$ps_thread->data end