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# OBSOLETE # Copyright 1992, 1994, 1995, 1996 Free Software Foundation, Inc.
# OBSOLETE 
# OBSOLETE # This program is free software; you can redistribute it and/or modify
# OBSOLETE # it under the terms of the GNU General Public License as published by
# OBSOLETE # the Free Software Foundation; either version 2 of the License, or
# OBSOLETE # (at your option) any later version.
# OBSOLETE # 
# OBSOLETE # This program is distributed in the hope that it will be useful,
# OBSOLETE # but WITHOUT ANY WARRANTY; without even the implied warranty of
# OBSOLETE # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# OBSOLETE # GNU General Public License for more details.
# OBSOLETE # 
# OBSOLETE # You should have received a copy of the GNU General Public License
# OBSOLETE # along with this program; if not, write to the Free Software
# OBSOLETE # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.  
# OBSOLETE 
# OBSOLETE # Please email any bugs, comments, and/or additions to this file to:
# OBSOLETE # bug-gdb@prep.ai.mit.edu
# OBSOLETE 
# OBSOLETE # This file was written by Fred Fish. (fnf@cygnus.com)
# OBSOLETE 
# OBSOLETE if $tracelevel then {
# OBSOLETE      strace $tracelevel
# OBSOLETE }
# OBSOLETE 
# OBSOLETE if [skip_chill_tests] then { continue }
# OBSOLETE 
# OBSOLETE set testfile "chillvars"
# OBSOLETE set srcfile ${srcdir}/$subdir/${testfile}.ch
# OBSOLETE set binfile ${objdir}/${subdir}/${testfile}.exe
# OBSOLETE if  { [compile "${srcfile} -g -o ${binfile} ${CHILL_RT0} ${CHILL_LIB}"] != "" } {
# OBSOLETE     perror "Couldn't compile ${srcfile}"
# OBSOLETE     return -1
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc do_tests {} {
# OBSOLETE     global prms_id bug_id subdir objdir srcdir binfile gdb_prompt
# OBSOLETE 
# OBSOLETE     set prms_id 0
# OBSOLETE     set bug_id 0
# OBSOLETE 
# OBSOLETE     # Start with a fresh gdb.
# OBSOLETE 
# OBSOLETE     gdb_exit
# OBSOLETE     gdb_start
# OBSOLETE     gdb_reinitialize_dir $srcdir/$subdir
# OBSOLETE     gdb_load $binfile
# OBSOLETE 
# OBSOLETE     gdb_test "set language chill" ""
# OBSOLETE 
# OBSOLETE     # This is needed (at least on SunOS4) to make sure the
# OBSOLETE     # the symbol table is read.
# OBSOLETE     gdb_test "break chillvars.ch:3" ""
# OBSOLETE     gdb_test "delete 1" ""
# OBSOLETE 
# OBSOLETE     gdb_test "set width 0" ""
# OBSOLETE     gdb_test "set print sevenbit-strings" ""
# OBSOLETE     gdb_test "set print address off" ""
# OBSOLETE 
# OBSOLETE     test_BOOL
# OBSOLETE     test_CHAR
# OBSOLETE     test_BYTE
# OBSOLETE     test_UBYTE
# OBSOLETE     test_INT
# OBSOLETE     test_UINT
# OBSOLETE     test_LONG
# OBSOLETE     test_ULONG
# OBSOLETE     test_REAL
# OBSOLETE     test_LONG_REAL
# OBSOLETE     test_POWERSET
# OBSOLETE     test_arrays
# OBSOLETE     test_strings
# OBSOLETE     test_structs
# OBSOLETE 
# OBSOLETE     test_ptr
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_BOOL {} {
# OBSOLETE 
# OBSOLETE     gdb_test "ptype bool_true"               "type = (BOOL|bool)"
# OBSOLETE     gdb_test "ptype bool_false"              "type = (BOOL|bool)"
# OBSOLETE     gdb_test "whatis bool_true"              "type = (BOOL|bool)"
# OBSOLETE     gdb_test "whatis bool_false"     "type = (BOOL|bool)"
# OBSOLETE     gdb_test "print bool_false"              " = FALSE"
# OBSOLETE     gdb_test "print bool_true"               " = TRUE"
# OBSOLETE 
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_CHAR {} {
# OBSOLETE     gdb_test "ptype control_char"    "type = (CHAR|char)"
# OBSOLETE     gdb_test "whatis control_char"   "type = (CHAR|char)"
# OBSOLETE     gdb_test "print control_char"    { = '\^[(]7[)]'}
# OBSOLETE     gdb_test "ptype printable_char"  "type = (CHAR|char)"
# OBSOLETE     gdb_test "whatis printable_char" "type = (CHAR|char)"
# OBSOLETE     gdb_test "print printable_char"  " = 'a'"
# OBSOLETE 
# OBSOLETE     gdb_test "print lower(char)"     { = '\^[(]0[)]'}
# OBSOLETE     gdb_test "print upper(char)"     { = '\^[(]255[)]'}
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_BYTE {} {
# OBSOLETE     gdb_test "ptype byte_low"                "type = (BYTE|byte)"
# OBSOLETE     gdb_test "whatis byte_low"               "type = (BYTE|byte)"
# OBSOLETE     gdb_test "print byte_low"                " = -128"
# OBSOLETE     gdb_test "ptype byte_high"               "type = (BYTE|byte)"
# OBSOLETE     gdb_test "whatis byte_high"              "type = (BYTE|byte)"
# OBSOLETE     gdb_test "print byte_high"               " = 127"
# OBSOLETE 
# OBSOLETE     gdb_test "print lower(byte)"     " = -128"
# OBSOLETE     gdb_test "print upper(byte)"     " = 127"
# OBSOLETE     gdb_test "print lower(byte_high)"        " = -128"
# OBSOLETE     gdb_test "print upper(byte_high)"        " = 127"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_UBYTE {} {
# OBSOLETE     gdb_test "ptype ubyte_low"               "type = (UBYTE|ubyte)"
# OBSOLETE     gdb_test "whatis ubyte_low"              "type = (UBYTE|ubyte)"
# OBSOLETE     gdb_test "print ubyte_low"               " = 0"
# OBSOLETE     gdb_test "ptype ubyte_high"              "type = (UBYTE|ubyte)"
# OBSOLETE     gdb_test "whatis ubyte_high"     "type = (UBYTE|ubyte)"
# OBSOLETE     gdb_test "print ubyte_high"              " = 255"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_INT {} {
# OBSOLETE     gdb_test "ptype int_low"         "type = (INT|int)"
# OBSOLETE     gdb_test "whatis int_low"                "type = (INT|int)"
# OBSOLETE     gdb_test "print int_low"         " = -32768"
# OBSOLETE     gdb_test "ptype int_high"                "type = (INT|int)"
# OBSOLETE     gdb_test "whatis int_high"               "type = (INT|int)"
# OBSOLETE     gdb_test "print int_high"                " = 32767"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_UINT {} {
# OBSOLETE     gdb_test "ptype uint_low"                "type = (UINT|uint)"
# OBSOLETE     gdb_test "whatis uint_low"               "type = (UINT|uint)"
# OBSOLETE     gdb_test "print uint_low"                " = 0"
# OBSOLETE     gdb_test "ptype uint_high"               "type = (UINT|uint)"
# OBSOLETE     gdb_test "whatis uint_high"              "type = (UINT|uint)"
# OBSOLETE     gdb_test "print uint_high"               " = 65535"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_LONG {} {
# OBSOLETE     gdb_test "ptype long_low"                "type = (LONG|long)"
# OBSOLETE     gdb_test "whatis long_low"               "type = (LONG|long)"
# OBSOLETE     gdb_test "print long_low"                " = -2147483648"
# OBSOLETE     gdb_test "ptype long_high"               "type = (LONG|long)"
# OBSOLETE     gdb_test "whatis long_high"              "type = (LONG|long)"
# OBSOLETE     gdb_test "print long_high"               " = 2147483647"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_ULONG {} {
# OBSOLETE     gdb_test "ptype ulong_low"               "type = (ULONG|ulong)"
# OBSOLETE     gdb_test "whatis ulong_low"              "type = (ULONG|ulong)"
# OBSOLETE     gdb_test "print ulong_low"               " = 0"
# OBSOLETE     gdb_test "ptype ulong_high"              "type = (ULONG|ulong)"
# OBSOLETE     gdb_test "whatis ulong_high"     "type = (ULONG|ulong)"
# OBSOLETE     gdb_test "print ulong_high"              " = 4294967295"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_REAL {} {
# OBSOLETE     gdb_test "ptype real1"           "type = (FLOAT|float)"
# OBSOLETE     gdb_test "whatis real1"          "type = (FLOAT|float)"
# OBSOLETE     gdb_test "print real1"           " = 3.14159274"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_LONG_REAL {} {
# OBSOLETE     gdb_test "ptype long_real1"              "type = (DOUBLE|double)"
# OBSOLETE     gdb_test "whatis long_real1"     "type = (DOUBLE|double)"
# OBSOLETE     gdb_test "print long_real1"              " = 3\\.1400000000000001e\\+300"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_POWERSET {} {
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_arrays {} {
# OBSOLETE     gdb_test "ptype booltable1"              "type = ARRAY \\(+0:3\\)+ (BOOL|bool)"
# OBSOLETE     gdb_test_exact "print booltable1"        \
# OBSOLETE      { = [(0): TRUE, (1:2): FALSE, (3): TRUE]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype booltable2"              "type = ARRAY \\(+4:7\\)+ (BOOL|bool)"
# OBSOLETE     gdb_test_exact "print booltable2" { = [(4): TRUE, (5:6): FALSE, (7): TRUE]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype chartable1"              "type = ARRAY \\(+0:2\\)+ (CHAR|char)"
# OBSOLETE     gdb_test_exact "print chartable1"  {= [(0): '^(0)', (1): '^(1)', (2): '^(2)']}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype chartable2"              "type = ARRAY \\(+3:5\\)+ (CHAR|char)"
# OBSOLETE     gdb_test_exact "print chartable2"        \
# OBSOLETE      {= [(3): '^(0)', (4): '^(1)', (5): '^(2)']}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype bytetable1"              "type = ARRAY \\(+0:4\\)+ (BYTE|byte)"
# OBSOLETE     gdb_test_exact "print bytetable1"                \
# OBSOLETE        {= [(0): -2, (1): -1, (2): 0, (3): 1, (4): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype bytetable2"              "type = ARRAY \\(+5:9\\)+ (BYTE|byte)"
# OBSOLETE     gdb_test_exact "print bytetable2"        \
# OBSOLETE      {= [(5): -2, (6): -1, (7): 0, (8): 1, (9): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype bytetable3" \
# OBSOLETE      "type = ARRAY \\(1:2\\) ARRAY \\('c':'d'\\) ARRAY \\(FALSE:TRUE\\) (BYTE|byte)"
# OBSOLETE     gdb_test_exact "print bytetable3" \
# OBSOLETE     {= [(1): [('c'): [(FALSE): 0, (TRUE): 1], ('d'): [(FALSE): 2, (TRUE): 3]], (2): [('c'): [(FALSE): 4, (TRUE): 5], ('d'): [(FALSE): 6, (TRUE): 7]]]}
# OBSOLETE     gdb_test "ptype bytetable4" \
# OBSOLETE      "type = ARRAY \\(1:2\\) ARRAY \\('c':'d'\\) ARRAY \\(FALSE:TRUE\\) (BYTE|byte)"
# OBSOLETE     gdb_test_exact "print bytetable4" \
# OBSOLETE     {= [(1): [('c'): [(FALSE): 0, (TRUE): 1], ('d'): [(FALSE): 2, (TRUE): 3]], (2): [('c'): [(FALSE): 4, (TRUE): 5], ('d'): [(FALSE): 6, (TRUE): 7]]]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype ubytetable1"     "type = ARRAY \\(+0:4\\)+ (UBYTE|ubyte)"
# OBSOLETE     gdb_test_exact "print ubytetable1"       \
# OBSOLETE      {= [(0): 0, (1): 1, (2): 2, (3): 3, (4): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype ubytetable2"     "type = ARRAY \\(+5:9\\)+ (UBYTE|ubyte)"
# OBSOLETE     gdb_test_exact "print ubytetable2"       \
# OBSOLETE      {= [(5): 0, (6): 1, (7): 2, (8): 3, (9): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype inttable1"               "type = ARRAY \\(+0:4\\)+ (INT|int)"
# OBSOLETE     gdb_test_exact "print inttable1" \
# OBSOLETE      {= [(0): -2, (1): -1, (2): 0, (3): 1, (4): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype inttable2"               "type = ARRAY \\(+5:9\\)+ (INT|int)"
# OBSOLETE     gdb_test_exact "print inttable2"         \
# OBSOLETE      {= [(5): -2, (6): -1, (7): 0, (8): 1, (9): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype uinttable1"              "type = ARRAY \\(+0:4\\)+ (UINT|uint)"
# OBSOLETE     gdb_test_exact "print uinttable1"        \
# OBSOLETE      {= [(0): 0, (1): 1, (2): 2, (3): 3, (4): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype uinttable2"              "type = ARRAY \\(+5:9\\)+ (UINT|uint)"
# OBSOLETE     gdb_test_exact "print uinttable2"        \
# OBSOLETE      {= [(5): 0, (6): 1, (7): 2, (8): 3, (9): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype longtable1"              "type = ARRAY \\(+0:4\\)+ (LONG|long)"
# OBSOLETE     gdb_test_exact "print longtable1"        \
# OBSOLETE      {= [(0): -2, (1): -1, (2): 0, (3): 1, (4): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype longtable2"              "type = ARRAY \\(+5:9\\)+ (LONG|long)"
# OBSOLETE     gdb_test_exact "print longtable2"        \
# OBSOLETE      {= [(5): -2, (6): -1, (7): 0, (8): 1, (9): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype ulongtable1"     "type = ARRAY \\(+0:4\\)+ (ULONG|ulong)"
# OBSOLETE     gdb_test_exact "print ulongtable1"       \
# OBSOLETE      {= [(0): 0, (1): 1, (2): 2, (3): 3, (4): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype ulongtable2"     "type = ARRAY \\(+5:9\\)+ (ULONG|ulong)"
# OBSOLETE     gdb_test_exact "print ulongtable2"       \
# OBSOLETE      {= [(5): 0, (6): 1, (7): 2, (8): 3, (9): 4]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype realtable1"              "type = ARRAY \\(+0:4\\)+ (FLOAT|float)"
# OBSOLETE     gdb_test_exact "print realtable1"        \
# OBSOLETE      {= [(0): -2, (1): -1, (2): 0, (3): 1, (4): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype realtable2"              "type = ARRAY \\(+5:9\\)+ (FLOAT|float)"
# OBSOLETE     gdb_test_exact "print realtable2"        \
# OBSOLETE      {= [(5): -2, (6): -1, (7): 0, (8): 1, (9): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype longrealtable1"  "type = ARRAY \\(+0:4\\)+ (DOUBLE|double)"
# OBSOLETE     gdb_test_exact "print longrealtable1" \
# OBSOLETE      {= [(0): -2, (1): -1, (2): 0, (3): 1, (4): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype longrealtable2"  "type = ARRAY \\(+5:9\\)+ (DOUBLE|double)"
# OBSOLETE     gdb_test_exact "print longrealtable2"    \
# OBSOLETE      {= [(5): -2, (6): -1, (7): 0, (8): 1, (9): 2]}
# OBSOLETE 
# OBSOLETE     gdb_test "print length(longrealtable2)" {= 5}
# OBSOLETE     gdb_test "print lower(longrealtable2)" {= 5}
# OBSOLETE     gdb_test "print upper(longrealtable2)" {= 9}
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_strings {} {
# OBSOLETE 
# OBSOLETE     gdb_test "ptype string1"         "type = CHARS \[(\]4\[)\]+"
# OBSOLETE     gdb_test "print string1"         " = \"abcd\""
# OBSOLETE 
# OBSOLETE     gdb_test "ptype string2"         "type = CHARS \[(\]+5\[)\]+"
# OBSOLETE     gdb_test "print string2"         { = \"ef\^\(0\)gh\"}
# OBSOLETE 
# OBSOLETE     gdb_test "ptype string3"         "type = CHARS \[(\]+6\[)\]+"
# OBSOLETE     gdb_test "print string3"         " = \"efghij\""
# OBSOLETE 
# OBSOLETE     gdb_test "ptype string4"         "type = CHARS \[(\]+7\[)\]+"
# OBSOLETE     gdb_test "print string4"         { = \"zzzzzz\^\(0\)\"}
# OBSOLETE 
# OBSOLETE     # These tests require a running process, so run to one of the procs
# OBSOLETE     # and then do the tests.
# OBSOLETE 
# OBSOLETE     if [runto scalar_arithmetic] then {
# OBSOLETE      gdb_test "ptype string1//string2"       "type = CHARS \\(9\\)"
# OBSOLETE      gdb_test "print string1//string2"    { = \"abcdef\^\(0\)gh\"}
# OBSOLETE      gdb_test_exact {ptype "a chill string"} {type = CHARS (14)}
# OBSOLETE      gdb_test "print 'a chill string'"       " = \"a chill string\""
# OBSOLETE      gdb_test "print \"ef\"//c'00'//\"gh\""  { = \"ef\^\(0\)gh\"}
# OBSOLETE      gdb_test "print string1 // \"efgh\""    " = \"abcdefgh\""
# OBSOLETE      gdb_test "print (6) 'z'"                " = \"zzzzzz\""
# OBSOLETE      gdb_test "ptype (6) 'z'"                "type = CHARS \[(\]+6\[)\]+"
# OBSOLETE      gdb_test "print (1+2*3) 'x'"            " = \"xxxxxxx\""
# OBSOLETE      gdb_test "ptype (1+2*3) 'x'"            "type = CHARS \[(\]+7\[)\]+"
# OBSOLETE     }
# OBSOLETE 
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_structs {} {
# OBSOLETE     gdb_test "ptype struct1" \
# OBSOLETE      "type = STRUCT \\(+.*abool (BOOL|bool),.*aint (INT|int),.*astring CHARS \\(+8\\)+.*\\)+"
# OBSOLETE     gdb_test "print struct1" \
# OBSOLETE      ".* = \\\[\.abool: TRUE, \.aint: 123, \.astring: \"a string\"\\\]"
# OBSOLETE     gdb_test "ptype struct2" \
# OBSOLETE      "type = STRUCT \\(+.*abool (BOOL|bool),.*nstruct simple_struct,.*aint (INT|int).*\\)+"
# OBSOLETE     gdb_test "print struct2" \
# OBSOLETE      ".* = \\\[.abool: TRUE, \.nstruct: \\\[\.abool: FALSE, \.aint: 456, \.astring: \"deadbeef\"\\\], \.aint: 789\\\]"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE proc test_ptr {} {
# OBSOLETE     # This is to test Cygnus PR 6932
# OBSOLETE     gdb_test "print xptr->int" ".* = 32767"
# OBSOLETE }
# OBSOLETE 
# OBSOLETE do_tests