/* Copyright (C) 2021 Free Software Foundation, Inc. Contributed by Oracle. This file is part of GNU Binutils. 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 3, 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, 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #include "config.h" #include #include #include #include #include "util.h" #include "DbeSession.h" #include "Experiment.h" #include "Expression.h" #include "Metric.h" Metric::Metric (BaseMetric *item, SubType st) : BaseMetric (*item) { name = NULL; abbr = NULL; abbr_unit = NULL; baseMetric = item; set_subtype (st); visbits = VAL_NA; if (item->get_type () == DERIVED) visbits = VAL_VALUE; } Metric::Metric (const Metric& item) : BaseMetric (item) { baseMetric = item.baseMetric; subtype = item.subtype; name = dbe_strdup (item.name); abbr = dbe_strdup (item.abbr); abbr_unit = dbe_strdup (item.abbr_unit); visbits = item.visbits; } Metric::~Metric () { free (name); free (abbr); free (abbr_unit); } // Note that BaseMetric::get_vtype() has the base value type. // Here, we get the value type for the displayed metric, // which may be different if comparison is used. ValueTag Metric::get_vtype2 () { ValueTag vtype = get_vtype (); if (visbits & VAL_DELTA) { switch (vtype) { case VT_ULLONG: return VT_LLONG; default: return vtype; } } if (visbits & VAL_RATIO) { switch (vtype) { case VT_INT: case VT_LLONG: case VT_ULLONG: case VT_FLOAT: case VT_DOUBLE: return VT_DOUBLE; default: return vtype; } } return vtype; } void Metric::set_subtype (SubType st) { subtype = st; free (name); free (abbr); free (abbr_unit); name = NULL; abbr = NULL; abbr_unit = NULL; switch (get_type ()) { case CP_LMS_USER: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive User CPU Time")); abbr = dbe_strdup (GTXT ("Excl. User CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive User CPU Time")); abbr = dbe_strdup (GTXT ("Incl. User CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed User CPU Time")); abbr = dbe_strdup (GTXT ("Attr. User CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_USER metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); abort (); } break; case CP_LMS_WAIT_CPU: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Wait CPU Time")); abbr = dbe_strdup (GTXT ("Excl. Wait CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Wait CPU Time")); abbr = dbe_strdup (GTXT ("Incl. Wait CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Wait CPU Time")); abbr = dbe_strdup (GTXT ("Attr. Wait CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_WAIT_CPU metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_USER_LOCK: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive User Lock Time")); abbr = dbe_strdup (GTXT ("Excl. User Lock")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive User Lock Time")); abbr = dbe_strdup (GTXT ("Incl. User Lock")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed User Lock Time")); abbr = dbe_strdup (GTXT ("Attr. User Lock")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_USER_LOCK metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_SYSTEM: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive System CPU Time")); abbr = dbe_strdup (GTXT ("Excl. Sys. CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive System CPU Time")); abbr = dbe_strdup (GTXT ("Incl. Sys. CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed System CPU Time")); abbr = dbe_strdup (GTXT ("Attr. Sys. CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_SYSTEM metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case SYNC_WAIT_TIME: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Sync Wait Time")); abbr = dbe_strdup (GTXT ("Excl. Sync Wait")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Sync Wait Time")); abbr = dbe_strdup (GTXT ("Incl. Sync Wait")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Sync Wait Time")); abbr = dbe_strdup (GTXT ("Attr. Sync Wait")); } else { name = dbe_sprintf (GTXT ("Unexpected LWT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_TFAULT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Text Page Fault Time")); abbr = dbe_strdup (GTXT ("Excl. Text Fault")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Text Page Fault Time")); abbr = dbe_strdup (GTXT ("Incl. Text Fault")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Text Page Fault Time")); abbr = dbe_strdup (GTXT ("Attr. Text Fault")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_TFAULT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_DFAULT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Data Page Fault Time")); abbr = dbe_strdup (GTXT ("Excl. Data Fault")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Data Page Fault Time")); abbr = dbe_strdup (GTXT ("Incl. Data Fault")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Data Page Fault Time")); abbr = dbe_strdup (GTXT ("Attr. Data Fault")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_DFAULT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_KERNEL_CPU: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Kernel CPU Time")); abbr = dbe_strdup (GTXT ("Excl. Kernel CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Kernel CPU Time")); abbr = dbe_strdup (GTXT ("Incl. Kernel CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Kernel CPU Time")); abbr = dbe_strdup (GTXT ("Attr. Kernel CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_KERNEL_CPU metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case HWCNTR: { char *sstr, *estr1, *estr2; if (get_hw_ctr () == NULL) abort (); sstr = get_username (); if (st == EXCLUSIVE) { estr1 = GTXT ("Exclusive "); estr2 = GTXT ("Excl. "); } else if (st == INCLUSIVE) { estr1 = GTXT ("Inclusive "); estr2 = GTXT ("Incl. "); } else if (st == ATTRIBUTED) { estr1 = GTXT ("Attributed "); estr2 = GTXT ("Attr. "); } else if (st == DATASPACE) { estr1 = GTXT ("Data-derived "); estr2 = GTXT ("Data. "); } else { estr1 = dbe_sprintf (GTXT ("Unexpected hwc %s metric subtype %d"), get_aux (), st); estr2 = dbe_strdup (NTXT ("??")); } name = dbe_sprintf (NTXT ("%s%s"), estr1, sstr); abbr = dbe_sprintf (NTXT ("%s%s"), estr2, sstr); break; } case DERIVED: { switch (st) { case EXCLUSIVE: name = dbe_sprintf (GTXT ("Exclusive %s"), get_username ()); abbr = dbe_sprintf (GTXT ("Excl. %s"), get_cmd ()); break; case INCLUSIVE: name = dbe_sprintf (GTXT ("Inclusive %s"), get_username ()); abbr = dbe_sprintf (GTXT ("Incl. %s"), get_cmd ()); break; case ATTRIBUTED: name = dbe_sprintf (GTXT ("Attributed %s"), get_username ()); abbr = dbe_sprintf (GTXT ("Attr. %s"), get_cmd ()); break; default: name = dbe_sprintf (GTXT ("Unexpected derived %s metric subtype %d"), get_username (), st); abbr = dbe_strdup (NTXT ("??")); break; } break; } case OMP_MASTER_THREAD: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Master Thread Time")); abbr = dbe_strdup (GTXT ("Excl. Master Thread")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Master Thread Time")); abbr = dbe_strdup (GTXT ("Incl. Master Thread")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Master Thread Time")); abbr = dbe_strdup (GTXT ("Attr. Master Thread")); } else { name = dbe_sprintf (GTXT ("Unexpected Master Thread metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_TOTAL: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Total Thread Time")); abbr = dbe_strdup (GTXT ("Excl. Total Thread")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Total Thread Time")); abbr = dbe_strdup (GTXT ("Incl. Total Thread")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Total Thread Time")); abbr = dbe_strdup (GTXT ("Attr. Total Thread")); } else { name = dbe_sprintf (GTXT ("Unexpected TOTAL metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case SYNC_WAIT_COUNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Sync Wait Count")); abbr = dbe_strdup (GTXT ("Excl. Sync Wait Count")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Sync Wait Count")); abbr = dbe_strdup (GTXT ("Incl. Sync Wait Count")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Sync Wait Count")); abbr = dbe_strdup (GTXT ("Attr. Sync Wait Count")); } else { name = dbe_sprintf (GTXT ("Unexpected LWCNT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_TOTAL_CPU: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Total CPU Time")); abbr = dbe_strdup (GTXT ("Excl. Total CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Total CPU Time")); abbr = dbe_strdup (GTXT ("Incl. Total CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Total CPU Time")); abbr = dbe_strdup (GTXT ("Attr. Total CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected TOTAL_CPU metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_TRAP: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Trap CPU Time")); abbr = dbe_strdup (GTXT ("Excl. Trap CPU")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Trap CPU Time")); abbr = dbe_strdup (GTXT ("Incl. Trap CPU")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Trap CPU Time")); abbr = dbe_strdup (GTXT ("Attr. Trap CPU")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_TRAP metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_KFAULT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Kernel Page Fault Time")); abbr = dbe_strdup (GTXT ("Excl. Kernel Page Fault")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Kernel Page Fault Time")); abbr = dbe_strdup (GTXT ("Incl. Kernel Page Fault")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Kernel Page Fault Time")); abbr = dbe_strdup (GTXT ("Attr. Kernel Page Fault")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_KFAULT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_SLEEP: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Sleep Time")); abbr = dbe_strdup (GTXT ("Excl. Sleep")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Sleep Time")); abbr = dbe_strdup (GTXT ("Incl. Sleep")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Sleep Time")); abbr = dbe_strdup (GTXT ("Attr. Sleep")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_SLEEP metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case CP_LMS_STOPPED: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Stopped Time")); abbr = dbe_strdup (GTXT ("Excl. Stopped")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Stopped Time")); abbr = dbe_strdup (GTXT ("Incl. Stopped")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Stopped Time")); abbr = dbe_strdup (GTXT ("Attr. Stopped")); } else { name = dbe_sprintf (GTXT ("Unexpected CP_LMS_STOPPED metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case HEAP_ALLOC_BYTES: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Bytes Allocated")); abbr = dbe_strdup (GTXT ("Excl. Bytes Allocated")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Bytes Allocated")); abbr = dbe_strdup (GTXT ("Incl. Bytes Allocated")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Bytes Allocated")); abbr = dbe_strdup (GTXT ("Attr. Bytes Allocated")); } else { name = dbe_sprintf (GTXT ("Unexpected BYTES_MALLOCD metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case HEAP_ALLOC_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Allocations")); abbr = dbe_strdup (GTXT ("Excl. Allocations")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Allocations")); abbr = dbe_strdup (GTXT ("Incl. Allocations")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Allocations")); abbr = dbe_strdup (GTXT ("Attr. Allocations")); } else { name = dbe_sprintf (GTXT ("Unexpected MALLOCS metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case HEAP_LEAK_BYTES: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Bytes Leaked")); abbr = dbe_strdup (GTXT ("Excl. Bytes Leaked")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Bytes Leaked")); abbr = dbe_strdup (GTXT ("Incl. Bytes Leaked")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Bytes Leaked")); abbr = dbe_strdup (GTXT ("Attr. Bytes Leaked")); } else { name = dbe_sprintf (GTXT ("Unexpected BYTES_LEAKED metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case HEAP_LEAK_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Leaks")); abbr = dbe_strdup (GTXT ("Excl. Leaks")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Leaks")); abbr = dbe_strdup (GTXT ("Incl. Leaks")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Leaks")); abbr = dbe_strdup (GTXT ("Attr. Leaks")); } else { name = dbe_sprintf (GTXT ("Unexpected LEAKS metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_READ_BYTES: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Read Bytes")); abbr = dbe_strdup (GTXT ("Excl. Read Bytes")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Read Bytes")); abbr = dbe_strdup (GTXT ("Incl. Read Bytes")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Read Bytes")); abbr = dbe_strdup (GTXT ("Attr. Read Bytes")); } else { name = dbe_sprintf (GTXT ("Unexpected READ_BYTES metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_WRITE_BYTES: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Write Bytes")); abbr = dbe_strdup (GTXT ("Excl. Write Bytes")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Write Bytes")); abbr = dbe_strdup (GTXT ("Incl. Write Bytes")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Write Bytes")); abbr = dbe_strdup (GTXT ("Attr. Write Bytes")); } else { name = dbe_sprintf (GTXT ("Unexpected WRITE_BYTES metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_READ_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Read Count")); abbr = dbe_strdup (GTXT ("Excl. Read Count")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Read Count")); abbr = dbe_strdup (GTXT ("Incl. Read Count")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Read Count")); abbr = dbe_strdup (GTXT ("Attr. Read Count")); } else { name = dbe_sprintf (GTXT ("Unexpected READCNT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_WRITE_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Write Count")); abbr = dbe_strdup (GTXT ("Excl. Write Count")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Write Count")); abbr = dbe_strdup (GTXT ("Incl. Write Count")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Write Count")); abbr = dbe_strdup (GTXT ("Attr. Write Count")); } else { name = dbe_sprintf (GTXT ("Unexpected WRITECNT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_OTHER_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Other I/O Count")); abbr = dbe_strdup (GTXT ("Excl. Other I/O Count")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Other I/O Count")); abbr = dbe_strdup (GTXT ("Incl. Other I/O Count")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Other I/O Count")); abbr = dbe_strdup (GTXT ("Attr. Other I/O Count")); } else { name = dbe_sprintf (GTXT ("Unexpected OTHERIOCNT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_ERROR_CNT: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive I/O Error Count")); abbr = dbe_strdup (GTXT ("Excl. I/O Error Count")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive I/O Error Count")); abbr = dbe_strdup (GTXT ("Incl. I/O Error Count")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed I/O Error Count")); abbr = dbe_strdup (GTXT ("Attr. I/O Error Count")); } else { name = dbe_sprintf (GTXT ("Unexpected IOERRORCNT metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_READ_TIME: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Read Time")); abbr = dbe_strdup (GTXT ("Excl. Read Time")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Read Time")); abbr = dbe_strdup (GTXT ("Incl. Read Time")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Read Time")); abbr = dbe_strdup (GTXT ("Attr. Read Time")); } else { name = dbe_sprintf (GTXT ("Unexpected READ_TIME metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_WRITE_TIME: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Write Time")); abbr = dbe_strdup (GTXT ("Excl. Write Time")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Write Time")); abbr = dbe_strdup (GTXT ("Incl. Write Time")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Write Time")); abbr = dbe_strdup (GTXT ("Attr. Write Time")); } else { name = dbe_sprintf (GTXT ("Unexpected WRITE_TIME metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_OTHER_TIME: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Other I/O Time")); abbr = dbe_strdup (GTXT ("Excl. Other I/O Time")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Other I/O Time")); abbr = dbe_strdup (GTXT ("Incl. Other I/O Time")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Other I/O Time")); abbr = dbe_strdup (GTXT ("Attr. Other I/O Time")); } else { name = dbe_sprintf (GTXT ("Unexpected OTHERIO_TIME metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case IO_ERROR_TIME: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive I/O Error Time")); abbr = dbe_strdup (GTXT ("Excl. I/O Error Time")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive I/O Error Time")); abbr = dbe_strdup (GTXT ("Incl. I/O Error Time")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed I/O Error Time")); abbr = dbe_strdup (GTXT ("Attr. I/O Error Time")); } else { name = dbe_sprintf (GTXT ("Unexpected IOERROR_TIME metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case SIZES: name = dbe_strdup (GTXT ("Size")); abbr = dbe_strdup (GTXT ("Size")); abbr_unit = dbe_strdup (GTXT ("bytes")); break; case ADDRESS: name = dbe_strdup (GTXT ("PC Address")); abbr = dbe_strdup (GTXT ("PC Addr.")); break; case ONAME: name = dbe_strdup (GTXT ("Name")); abbr = dbe_strdup (GTXT ("Name")); break; case OMP_NONE: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Non-OpenMP Time")); abbr = dbe_strdup (GTXT ("Excl. Non-OMP")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Non-OpenMP Time")); abbr = dbe_strdup (GTXT ("Incl. Non-OMP")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Non-OpenMP Time")); abbr = dbe_strdup (GTXT ("Attr. Non-OMP")); } else { name = dbe_sprintf (GTXT ("Unexpected Non-OpenMP metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_OVHD: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Overhead Time")); abbr = dbe_strdup (GTXT ("Excl. OMP ovhd.")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Overhead Time")); abbr = dbe_strdup (GTXT ("Incl. OMP ovhd.")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Overhead Time")); abbr = dbe_strdup (GTXT ("Attr. OMP ovhd.")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Overhead metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_WORK: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Work Time")); abbr = dbe_strdup (GTXT ("Excl. OMP Work")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Work Time")); abbr = dbe_strdup (GTXT ("Incl. OMP Work")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Work Time")); abbr = dbe_strdup (GTXT ("Attr. OMP Work")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Work metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_IBAR: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Implicit Barrier Time")); abbr = dbe_strdup (GTXT ("Excl. OMP i-barr.")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Implicit Barrier Time")); abbr = dbe_strdup (GTXT ("Incl. OMP i-barr.")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Implicit Barrier Time")); abbr = dbe_strdup (GTXT ("Attr. OMP i-barr.")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Implicit Barrier metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_EBAR: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Explicit Barrier Time")); abbr = dbe_strdup (GTXT ("Excl. OMP e-barr.")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Explicit Barrier Time")); abbr = dbe_strdup (GTXT ("Incl. OMP e-barr.")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Explicit Barrier Time")); abbr = dbe_strdup (GTXT ("Attr. OMP e-barr.")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Explicit Barrier metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_WAIT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Wait Time")); abbr = dbe_strdup (GTXT ("Excl. OMP Wait")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Wait Time")); abbr = dbe_strdup (GTXT ("Incl. OMP Wait")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Wait Time")); abbr = dbe_strdup (GTXT ("Attr. OMP Wait")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Wait metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_SERL: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Serial Time")); abbr = dbe_strdup (GTXT ("Excl. OMP serl")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Serial Time")); abbr = dbe_strdup (GTXT ("Incl. OMP serl")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Serial Time")); abbr = dbe_strdup (GTXT ("Attr. OMP serl")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Slave Idle metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_RDUC: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Reduction Time")); abbr = dbe_strdup (GTXT ("Excl. OMP rduc")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Reduction Time")); abbr = dbe_strdup (GTXT ("Incl. OMP rduc")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Reduction Time")); abbr = dbe_strdup (GTXT ("Attr. OMP rduc")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Reduction metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_LKWT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Lock Wait Time")); abbr = dbe_strdup (GTXT ("Excl. OMP lkwt")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Lock Wait Time")); abbr = dbe_strdup (GTXT ("Incl. OMP lkwt")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Lock Wait Time")); abbr = dbe_strdup (GTXT ("Attr. OMP lkwt")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Lock Wait metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_CTWT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Critical Section Wait Time")); abbr = dbe_strdup (GTXT ("Excl. OMP ctwt")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Critical Section Wait Time")); abbr = dbe_strdup (GTXT ("Incl. OMP ctwt")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Critical Section Wait Time")); abbr = dbe_strdup (GTXT ("Attr. OMP ctwt")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Critical Section Wait metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_ODWT: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Ordered Section Wait Time")); abbr = dbe_strdup (GTXT ("Excl. OMP odwt")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Ordered Section Wait Time")); abbr = dbe_strdup (GTXT ("Incl. OMP odwt")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Ordered Section Wait Time")); abbr = dbe_strdup (GTXT ("Attr. OMP odwt")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Ordered Section Wait metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_MSTR: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Master Serial Time")); abbr = dbe_strdup (GTXT ("Excl. OMP ser.")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Master Serial Time")); abbr = dbe_strdup (GTXT ("Incl. OMP ser.")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Master Serial Time")); abbr = dbe_strdup (GTXT ("Attr. OMP ser.")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Master Serial metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_SNGL: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Single Region Time")); abbr = dbe_strdup (GTXT ("Excl. OMP sngl")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Single Region Time")); abbr = dbe_strdup (GTXT ("Incl. OMP sngl")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Single Region Time")); abbr = dbe_strdup (GTXT ("Attr. OMP sngl")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Single Region metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case OMP_ORDD: abbr_unit = dbe_strdup (GTXT ("sec.")); if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive OpenMP Ordered Region Time")); abbr = dbe_strdup (GTXT ("Excl. OMP ordd")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive OpenMP Ordered Region Time")); abbr = dbe_strdup (GTXT ("Incl. OMP ordd")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed OpenMP Ordered Region Time")); abbr = dbe_strdup (GTXT ("Attr. OMP ordd")); } else { name = dbe_sprintf (GTXT ("Unexpected OpenMP Ordered Region metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case RACCESS: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Race Accesses")); abbr = dbe_strdup (GTXT ("Excl. Race Accesses")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Race Accesses")); abbr = dbe_strdup (GTXT ("Incl. Race Accesses")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Race Accesses")); abbr = dbe_strdup (GTXT ("Attr. Race Accesses")); } else { name = dbe_sprintf (GTXT ("Unexpected Race Access metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; case DEADLOCKS: if (st == EXCLUSIVE) { name = dbe_strdup (GTXT ("Exclusive Deadlocks")); abbr = dbe_strdup (GTXT ("Excl. Deadlocks")); } else if (st == INCLUSIVE) { name = dbe_strdup (GTXT ("Inclusive Deadlocks")); abbr = dbe_strdup (GTXT ("Incl. Deadlocks")); } else if (st == ATTRIBUTED) { name = dbe_strdup (GTXT ("Attributed Deadlocks")); abbr = dbe_strdup (GTXT ("Attr. Deadlocks")); } else { name = dbe_sprintf (GTXT ("Unexpected Deadlocks metric subtype %d"), st); abbr = dbe_strdup (NTXT ("??")); } break; default: abort (); } } //Metric::set_subtype static bool is_width_ok (int lines, size_t width, size_t *tlen, int last) { size_t len = 0; for (int i = 0; i <= last; i++) { if (len != 0) len++; if (len + tlen[i] > width) { if (--lines == 0) return false; len = 0; } len += tlen[i]; } return true; } void Metric::legend_width (HistMetric *hitem, int gap) { size_t tlen[MAX_LEN]; char *tok[MAX_LEN], buf[MAX_LEN], unit[MAX_LEN]; hitem->width = hitem->maxtime_width; if (hitem->maxvalue_width > 0) { if (hitem->width > 0) hitem->width++; hitem->width += hitem->maxvalue_width; } if (is_pvisible ()) { if (hitem->width > 0) { hitem->width++; } hitem->width += 6; // adjust to change format from xx.yy% } snprintf (buf, sizeof (buf), "%s", get_abbr ()); size_t max_len = hitem->width; if (legend) { size_t legend_len = strlen (legend); if (max_len < legend_len) max_len = legend_len; } tok[0] = buf; int last = 0; for (int i = 0;; i++) { if (buf[i] == ' ') { buf[i] = '\0'; while (buf[i + 1] == ' ') i++; tlen[last] = strlen (tok[last]); if (max_len < tlen[last]) max_len = tlen[last]; last++; tok[last] = buf + i + 1; } else if (buf[i] == '\0') { tlen[last] = strlen (tok[last]); if (max_len < tlen[last]) max_len = tlen[last]; if (tlen[last] == 0 && last > 0) last--; break; } } *unit = '\0'; // get the extra unit tokens int max_lines = 3; if (is_tvisible ()) { char *s = GTXT ("sec."); if ((get_visbits () & VAL_DELTA) != 0) s = GTXT ("delta"); else if ((get_visbits () & VAL_RATIO) != 0) s = GTXT ("ratio"); long len = strlen (s); if (hitem->maxtime_width < len) { hitem->width += len - hitem->maxtime_width; hitem->maxtime_width = len; } snprintf (unit, sizeof (unit), "%*s", (int) hitem->maxtime_width, s); } if (is_visible ()) { char *s = NTXT (""); if (!is_tvisible ()) { if ((get_visbits () & VAL_DELTA) != 0) s = GTXT ("delta"); else if ((get_visbits () & VAL_RATIO) != 0) s = GTXT ("ratio"); else if ((get_value_styles () & VAL_TIMEVAL) != 0 && !is_time_val ()) s = GTXT ("sec."); } long len = strlen (s); if (hitem->maxvalue_width < len) { hitem->width += len - hitem->maxvalue_width; hitem->maxvalue_width = len; } if (*unit) { max_lines = 2; len = strlen (unit); snprintf (unit + len, sizeof (unit) - len, " %*s", (int) hitem->maxvalue_width, s); } else snprintf (unit, sizeof (unit), "%*s", (int) hitem->maxvalue_width, s); } if (is_pvisible ()) { max_lines = 2; if (*unit) { size_t len = strlen (unit); snprintf (unit + len, sizeof (unit) - len, GTXT (" %%")); } else snprintf (unit, sizeof (unit), GTXT (" %%")); } for (size_t i = strlen (unit); i > 0;) { // remove trailing spaces i--; if (unit[i] != ' ') break; unit[i] = 0; } if (*unit) { last++; tlen[last] = strlen (unit); tok[last] = unit; if (max_len < tlen[last]) max_len = tlen[last]; if (max_lines == 3 && *unit == ' ') { char *str = unit; while (*str == ' ') str++; tlen[last] = strlen (str); tok[last] = str; } } int last1 = max_lines == 3 ? last : last - 1; while (!is_width_ok (max_lines, max_len, tlen, last1)) max_len++; hitem->width = max_len + gap; char *legends[3]; legends[0] = hitem->legend1; legends[1] = hitem->legend2; legends[2] = hitem->legend3; for (int i = 0, ind = 0; i < 3; i++) { char *str = legends[i]; *str = 0; for (; ind <= last; ind++) { if (*unit && (ind == last)) { // Try to put 'unit' in 'legend3' if (i != 2) { tok[last] = unit; // restore a formated 'unit' break; } } size_t len = strlen (str); if (len != 0) { if (len + 1 + tlen[ind] > max_len) break; snprintf (str + len, MAX_LEN - len, NTXT (" %s"), tok[ind]); } else { if (len + tlen[ind] > max_len) break; snprintf (str + len, MAX_LEN - len, NTXT ("%s"), tok[ind]); } } } } int Metric::get_real_visbits () { int v = visbits; if (!is_time_val () && (visbits & (VAL_TIMEVAL | VAL_VALUE)) != 0) { v &= ~(VAL_TIMEVAL | VAL_VALUE); v |= (get_value_styles () & (VAL_TIMEVAL | VAL_VALUE)); } return v; } char * Metric::get_vis_string (int vis) { char *vis_str; if (subtype == STATIC) vis_str = NTXT (""); else { int v; if (is_time_val ()) v = vis & (VAL_TIMEVAL | VAL_VALUE | VAL_PERCENT); else { v = vis & VAL_PERCENT; if ((vis & (VAL_TIMEVAL | VAL_VALUE)) != 0) v |= (get_value_styles () & (VAL_TIMEVAL | VAL_VALUE)); } switch (v) { case VAL_TIMEVAL: vis_str = NTXT ("."); break; case VAL_VALUE: vis_str = NTXT ("+"); break; case VAL_TIMEVAL | VAL_VALUE: vis_str = NTXT (".+"); break; case VAL_PERCENT: vis_str = NTXT ("%"); break; case VAL_TIMEVAL | VAL_PERCENT: vis_str = NTXT (".%"); break; case VAL_VALUE | VAL_PERCENT: vis_str = NTXT ("+%"); break; case VAL_TIMEVAL | VAL_VALUE | VAL_PERCENT: vis_str = NTXT (".+%"); break; default: vis_str = NTXT ("!"); break; } } return vis_str; } char * Metric::get_vis_str () { char *vis_str = NULL; if (visbits == -1) { // unitialized, return all possible with a trailing - if (subtype == STATIC) vis_str = NTXT (".-"); else if (is_time_val ()) vis_str = NTXT (".+%-"); else vis_str = NTXT (".%-"); } else vis_str = get_vis_string (get_real_visbits ()); return vis_str; } void Metric::set_dmetrics_visbits (int dmetrics_visbits) { visbits = VAL_NA; // clear global state // process the "show" bits int _visbits = dmetrics_visbits & ~VAL_HIDE_ALL; assert (_visbits != -1); if (_visbits == 0) return; // done. (Ignore VAL_HIDE_ALL since there's nothing to hide.) if (get_subtype () == STATIC) // percent, time value not applicable visbits = VAL_VALUE; else { // now or in the bits, but manage . and + according to the is_time_val setting if (is_time_val () == 0) { if ((_visbits & VAL_VALUE) || (_visbits & VAL_TIMEVAL)) visbits |= VAL_VALUE; } else visbits |= (_visbits & (VAL_VALUE | VAL_TIMEVAL)); visbits |= (_visbits & (VAL_PERCENT | VAL_RATIO | VAL_DELTA)); } // process the "hide" bit if (dmetrics_visbits & VAL_HIDE_ALL) visbits |= VAL_HIDE_ALL; } void Metric::set_vvisible (bool set) { if (set) { visbits |= VAL_VALUE; visbits &= ~VAL_HIDE_ALL; } else visbits &= ~VAL_VALUE; } void Metric::set_tvisible (bool set) { if (set) { visbits |= VAL_TIMEVAL; visbits &= ~VAL_HIDE_ALL; } else visbits &= ~VAL_TIMEVAL; } void Metric::set_pvisible (bool set) { if (set) { visbits |= VAL_PERCENT; visbits &= ~VAL_HIDE_ALL; } else visbits &= ~VAL_PERCENT; } char * Metric::get_mcmd (bool allPossible) { char *sc = NTXT (""); // subtype == STATIC char *hide; char *vis = get_vis_string (allPossible ? get_value_styles () : get_real_visbits ()); if (subtype == INCLUSIVE) sc = NTXT ("i"); else if (subtype == EXCLUSIVE) sc = NTXT ("e"); else if (subtype == ATTRIBUTED) sc = NTXT ("a"); else if (subtype == DATASPACE) sc = NTXT ("d"); if (allPossible) hide = NTXT (""); else if (visbits == VAL_NA || (visbits & VAL_HIDE_ALL) != 0) hide = NTXT ("!"); else hide = NTXT (""); char *mcmd = get_cmd (); return dbe_sprintf (GTXT ("%s%s%s%s"), sc, hide, vis, mcmd); } char * Metric::dump () { int len = 4; BaseMetric *bm = (BaseMetric *) this; char *s = bm->dump (); char *msg = dbe_sprintf ("%s\n%*c subtype=%d time_val=%d vis=%d tvis=%d" " pvis=%d\n%*c abbr='%s' cmd='%s' name='%s'\n", STR (s), len, ' ', get_subtype (), is_time_val (), is_visible (), is_tvisible (), is_pvisible (), len, ' ', STR (get_abbr ()), STR (get_cmd ()), STR (get_name ())); free (s); return msg; }