# Copyright (C) 1995, 1997 Free Software Foundation, Inc. # 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 of the License, 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. # Please email any bugs, comments, and/or additions to this file to: # bug-gdb@prep.ai.mit.edu # This file tests various Chill values, expressions, and types. if $tracelevel then { strace $tracelevel } if [skip_chill_tests] then { continue } set testfile "tests1" set srcfile ${srcdir}/$subdir/${testfile}.ch set binfile ${objdir}/${subdir}/${testfile}.exe if { [compile "${srcfile} -g -w -o ${binfile} ${CHILL_RT0} ${CHILL_LIB}"] != "" } { perror "Couldn't compile ${srcfile}" return -1 } # Set the current language to chill. This counts as a test. If it # fails, then we skip the other tests. proc set_lang_chill {} { global gdb_prompt global binfile objdir subdir verbose "loading file '$binfile'" gdb_load $binfile send_gdb "set language chill\n" gdb_expect { -re ".*$gdb_prompt $" {} timeout { fail "set language chill (timeout)" ; return 0 } } send_gdb "show language\n" gdb_expect { -re ".* source language is \"chill\".*$gdb_prompt $" { pass "set language to \"chill\"" send_gdb "break dummyfunc\n" gdb_expect { -re ".*$gdb_prompt $" { send_gdb "run\n" gdb_expect -re ".*$gdb_prompt $" {} return 1 } timeout { fail "can't set breakpoint (timeout)" return 0 } } } -re ".*$gdb_prompt $" { fail "setting language to \"chill\"" return 0 } timeout { fail "can't show language (timeout)" return 0 } } } # Testing printing of a specific value. Increment passcount for # success or issue fail message for failure. In both cases, return # a 1 to indicate that more tests can proceed. However a timeout # is a serious error, generates a special fail message, and causes # a 0 to be returned to indicate that more tests are likely to fail # as well. # # Args are: # # First one is string to send_gdb to gdb # Second one is string to match gdb result to # Third one is an optional message to be printed proc test_print_accept { args } { global gdb_prompt global passcount global verbose if [llength $args]==3 then { set message [lindex $args 2] } else { set message [lindex $args 0] } set sendthis [lindex $args 0] set expectthis [lindex $args 1] set result [gdb_test $sendthis ".* = ${expectthis}" $message] if $result==0 {incr passcount} return $result } # Testing printing of a specific value. Increment passcount for # success or issue fail message for failure. In both cases, return # a 1 to indicate that more tests can proceed. However a timeout # is a serious error, generates a special fail message, and causes # a 0 to be returned to indicate that more tests are likely to fail # as well. # various tests if modes are treated correctly # using ptype proc test_modes {} { global passcount verbose "testing chill modes" set passcount 0 # discrete modes test_print_accept "ptype BYTE" "byte" test_print_accept "ptype UBYTE" "ubyte" test_print_accept "ptype INT" "int" test_print_accept "ptype UINT" "uint" test_print_accept "ptype LONG" "long" test_print_accept "ptype ULONG" "ulong" test_print_accept "ptype BOOL" "bool" test_print_accept "ptype CHAR" "char" test_print_accept "ptype set1" "SET \[(\]aaa, bbb, ccc\[)\]" \ "print unnumbered set mode" test_print_accept "ptype nset1" "SET \[(\]na = 1, nb = 34, nc = 20\[)\]" \ "print numbered set mode" # mp: # display maybe in hex values ? # test_print_accept "ptype r11" "ubyte \\(0:255\\)" \ "print ubyte range mode" test_print_accept "ptype r12" "uint \\(0:65535\\)" \ "print uint range mode" # test_print_accept "ptype r13" "ulong \\(0:4294967295\\)" \ # "print ulong range mode" test_print_accept "ptype r14" "byte \\(-128:127\\)" \ "print byte range mode" test_print_accept "ptype r15" "int \\(-32768:32767\\)" \ "print int range mode" test_print_accept "ptype r16" "long \\(-2147483648:2147483647\\)" \ "print long range mode" test_print_accept "ptype r2" "set1 \\(bbb:ccc\\)" \ "print unnumbered set range mode" test_print_accept "ptype r3" "nset1 \\(na:na\\)" \ "print numbered set range mode" # really this order ? # I'm not sure what should happen for the next two tests. setup_xfail "*-*-*" test_print_accept "ptype r4" "nset1 \\(nb = 34:nc = 20\\)" \ "print numbered set range mode" setup_xfail "*-*-*" test_print_accept "ptype r5" "nset1 \\(na = 1, nb = 34, nc = 20\\)" \ "print numbered set range mode" # powerset modes test_print_accept "ptype pm1" \ "POWERSET SET \[(\]p1, p2, p3, p4, p5, p6, p7, p8, p9, p10\[)\]" \ "print powerset mode 1" test_print_accept "ptype pm2" "POWERSET byte \\(1:8\\)" \ "print powerset mode 2" test_print_accept "ptype pm3" "POWERSET int \\(-32768:32767\\)" \ "print powerset mode 3" test_print_accept "ptype pm4" "POWERSET long \\(-32768:32768\\)" \ "print powerset mode 4" test_print_accept "ptype pm5" \ "POWERSET long \\(-2147483648:2147483647\\)" \ "print powerset mode 5" # reference modes test_print_accept "ptype ref1" "REF pm1" \ "print reference to powerset mode" test_print_accept "ptype ref2" "REF byte" \ "print reference to byte" test_print_accept "ptype ref3" "PTR" \ "print free reference type" # procedure modes # FIXME: we have to talk about this ... test_print_accept "ptype prm1" \ "REF PROC \[(\]\[)\]" \ "print procedure mode 1" setup_xfail "*-*-*" test_print_accept "ptype prm2" \ "REF PROC \[(\]bool in, int out long inout\[)\] RETURNS \[(\]char\[)\]" \ "print procedure mode 2" setup_xfail "*-*-*" test_print_accept "ptype prm3" \ "REF PROC \[(\]pm1, ref loc\[)\] RETURNS \[(\]ref3\[)\]" \ "print procedure mode 3" setup_xfail "*-*-*" test_print_accept "ptype prm4" \ "\[(\] \[)\] EXCEPTIONS \[(\]ex1, ex2, ex3\[)\]" \ "print procedure mode 4" setup_xfail "*-*-*" test_print_accept "ptype prm5" \ "REF PROC \[(\]r11, r16 inout, r5 out\[)\] RETURNS \[(\]r2\[)\] EXCEPTIONS \[(\]ex1\[)\]" \ "print procedure mode 5" # synchronization modes # FIXME: since gdb doesn't process events & buffers so far, this has be # filled later... xfail "synchronization mode handling" # timing modes test_print_accept "ptype DURATION" "duration" test_print_accept "ptype TIME" "time" # string modes # some tests are done in chillvars.exp test_print_accept "ptype strm1" "CHARS \\(5\\)" "print char string mode" test_print_accept "ptype strm2" "CHARS \[(\]7\[)\] VARYING" \ "print varying char string mode" test_print_accept "ptype bstr1" "BOOLS \\(20\\)" "print bit string mode" test_print_accept "ptype B'000'" "BOOLS \\(3\\)" "bit string literal" test_print_accept "ptype B'11110000'" "BOOLS \\(8\\)" "bit string literal" # FIXME: adjust error message gdb_test "ptype B'00110211'" {.*Too-large digit.*[.]} \ "reject invalid bitstring" # array modes # some tests are done in chillvars.exp test_print_accept "ptype arr1m" "ARRAY \\(1:100\\) set1" \ "print array mode 1" test_print_accept "ptype arr2m" "ARRAY \\(1:100\\) ARRAY \\(1:100\\) set1"\ "print array mode 2" test_print_accept "ptype arr3m" "ARRAY \\(0:255\\) ARRAY \\(0:65535\\) ARRAY \\(-128:127\\) set1" \ "print array mode 3" setup_xfail "*-*-*" test_print_accept "ptype arr4m" "ARRAY \\(b:c\\) ARRAY \\(na = 1:na = 1\\) ARRAY \\(nc:nb\\) ARRAY \\(na = 1:nc = 20\\) POWERSET SET \[(\]p1, p2, p3, p4, p5, p6, p7, p8, p9, p10\[)\]" \ "print array mode 4" # structure modes # some checks are in chillvars.exp # setup_xfail "*-*-*" test_print_accept "ptype stru1m" "STRUCT \\(.*a long,.*b long,.*CASE OF.*:.*ch1 CHARS \\(20\\).*:.*ch2 CHARS \\(10\\).*ELSE.*ch3 CHARS \\(1\\).*ESAC.*\\)" \ "print structure mode 1" #setup_xfail "*-*-*" test_print_accept "ptype stru2m" "STRUCT \\(.*f set1,.*CASE OF.*:.*ch1 CHARS \\(20\\).*:.*ch2 CHARS \\(10\\) VARYING.*ELSE.*ch3 CHARS \\(0\\) VARYING.*ESAC.*\\)" \ "print structure mode 2" #setup_xfail "*-*-*" test_print_accept "ptype stru3m" "STRUCT \\(.*f r3,.*CASE OF.*:.*ch1 CHARS \\(20\\).*ESAC.*\\)" \ "print structure mode 3" # setup_xfail "*-*-*" test_print_accept "ptype stru4m" "STRUCT \\(.*i long,.*CASE OF.*:.*i1 int,.*i11 int,.*b1 bool,.*c1 char.*:.*i2 long,.*i22 long,.*bs2 BOOLS \\(10\\).*:.*s3 STRUCT \\(.*i3 int,.*CASE OF.*:.*foo long.*ELSE.*bar char.*ESAC.*\\).*ELSE.*x stru2m.*ESAC,.*y stru3m.*\\)" \ "print structure mode 4" if $passcount then { pass "$passcount correct modes printed" } } # various tests if locations are treated correctly # read access using ptype, print, whatis proc test_locations {} { global passcount set passcount 0 verbose "testing read access to locations" # various location tests can be found in chillvars.exp # set locations test_print_accept "ptype s1l" "SET \\(aaa, bbb, ccc\\)" \ "print mode of set location" test_print_accept "whatis s1l" "set1" \ "print modename of set location" test_print_accept "print s1l" "ccc" "print set location" test_print_accept "ptype s2l" "SET \\(na = 1, nb = 34, nc = 20\\)" \ "print mode of numbered set location" test_print_accept "whatis s2l" "nset1" \ "print mode name of numbered set location" test_print_accept "print s2l" "nb" "print numberes set location" # range modes test_print_accept "ptype rl1" "ubyte \\(0:255\\)" \ "print mode of range location" test_print_accept "whatis rl1" "r11" \ "print mode name of range location" test_print_accept "print rl1" "3" \ "print range location" test_print_accept "ptype rl2" "ubyte \\(0:255\\)" \ "print mode of range location" test_print_accept "whatis rl2" "r11" \ "print mode name of range location" test_print_accept "print rl2" "0" \ "print range location" test_print_accept "ptype rl3" "ubyte \\(0:255\\)" \ "print mode of range location" test_print_accept "whatis rl3" "r11" \ "print mode name of range location" test_print_accept "print rl3" "255" \ "print range location" test_print_accept "ptype rl5" "uint \\(0:65535\\)" \ "print mode of range location" test_print_accept "whatis rl5" "r12" \ "print mode name of range location" test_print_accept "print rl5" "65530" \ "print range location" test_print_accept "ptype rl6" "uint \\(0:65535\\)" \ "print mode of range location" test_print_accept "whatis rl6" "r12" \ "print mode name of range location" test_print_accept "print rl6" "0" \ "print range location" test_print_accept "ptype rl7" "uint \\(0:65535\\)" \ "print mode of range location" test_print_accept "whatis rl7" "r12" \ "print mode name of range location" test_print_accept "print rl7" "65535" \ "print range location" # test_print_accept "ptype rl9" "ulong \\(0:4294967295\\)" \ # "print mode of range location" # test_print_accept "whatis rl9" "r13" \ # "print mode name of range location" # test_print_accept "print rl9" "128" \ # "print range location" # test_print_accept "ptype rl10" "ulong \\(0:4294967295\\)" \ # "print mode of range location" # test_print_accept "whatis rl10" "r13" \ # "print mode name of range location" # test_print_accept "print rl10" "0" \ # "print range location" # test_print_accept "ptype rl11" "ulong \\(0:4294967295\\)" \ # "print mode of range location" # test_print_accept "whatis rl11" "r13" \ # "print mode name of range location" # test_print_accept "print rl11" "4294967295" \ # "print range location" test_print_accept "ptype rl13" "byte \\(-128:127\\)" \ "print mode of range location" test_print_accept "whatis rl13" "r14" \ "print mode name of range location" test_print_accept "print rl13" "-121" \ "print range location" test_print_accept "ptype rl14" "byte \\(-128:127\\)" \ "print mode of range location" test_print_accept "whatis rl14" "r14" \ "print mode name of range location" test_print_accept "print rl14" "-128" \ "print range location" test_print_accept "ptype rl15" "byte \\(-128:127\\)" \ "print mode of range location" test_print_accept "whatis rl15" "r14" \ "print mode name of range location" test_print_accept "print rl15" "127" \ "print range location" test_print_accept "ptype rl17" "int \\(-32768:32767\\)" \ "print mode of range location" test_print_accept "whatis rl17" "r15" \ "print mode name of range location" test_print_accept "print rl17" "-32720" \ "print range location" test_print_accept "ptype rl18" "int \\(-32768:32767\\)" \ "print mode of range location" test_print_accept "whatis rl18" "r15" \ "print mode name of range location" test_print_accept "print rl18" "-32768" \ "print range location" test_print_accept "ptype rl19" "int \\(-32768:32767\\)" \ "print mode of range location" test_print_accept "whatis rl19" "r15" \ "print mode name of range location" test_print_accept "print rl19" "32767" \ "print range location" test_print_accept "ptype rl21" "long \\(-2147483648:2147483647\\)" \ "print mode of range location" test_print_accept "whatis rl21" "r16" \ "print mode name of range location" test_print_accept "print rl21" "2147483643" \ "print range location" test_print_accept "ptype rl22" "long \\(-2147483648:2147483647\\)" \ "print mode of range location" test_print_accept "whatis rl22" "r16" \ "print mode name of range location" test_print_accept "print rl22" "-2147483648" \ "print range location" test_print_accept "ptype rl23" "long \\(-2147483648:2147483647\\)" \ "print mode of range location" test_print_accept "whatis rl23" "r16" \ "print mode name of range location" test_print_accept "print rl23" "2147483647" \ "print range location" # powerset locations test_print_accept "ptype pl1" \ "POWERSET SET \\(p1, p2, p3, p4, p5, p6, p7, p8, p9, p10\\)" \ "print mode of powerset location 1" test_print_accept "whatis pl1" "pm1" \ "print mode mode name of powerset location" test_print_accept "print pl1" \ "\[\[\]p1:p10\[\]\]" \ "print powerset location 1" test_print_accept "print pl2" {\[\]} \ "print powerset location 2" test_print_accept "print pl3" "\[\[\]p1, p10\[\]\]" \ "print powerset location 3" test_print_accept "print pl4" {\[p1:p2, p4:p6, p8:p10\]} \ "print powerset location 4" test_print_accept "print pl5" {\[p1:p4, p6, p8:p10\]} \ "print powerset location 5" test_print_accept "print pl6" {\[p1, p3:p8, p10\]} \ "print powerset location 6" test_print_accept "ptype pl7" \ "POWERSET byte \\(1:8\\)" \ "print mode of byte powerset location" test_print_accept "whatis pl7" "pm2" \ "print modename of byte powerset location" test_print_accept "print pl7" {\[1:8\]} \ "print powerset location 7" test_print_accept "ptype pl8" \ "POWERSET int \\(-32768:32767\\)" \ "print mode of int powerset location" test_print_accept "whatis pl8" "pm3" \ "print modename of int powerset location" test_print_accept "print pl8" {\[-32768:32767\]} \ "print powerset location 8" # test_print_accept "ptype pl9" \ # "POWERSET long \\(-2147483648:2147483647\\)" \ # "print mode of long powerset location" # test_print_accept "whatis pl9" "pm5" \ # "print modename of long powerset location" # test_print_accept "print pl9" {\[-2147483648:2147483647\]} \ # "print powerset location 9" # reference modes test_print_accept "ptype ref3l" "PTR" "print mode of reference location" # setup_xfail "*-*-*" test_print_accept "whatis ref3l" "ref3" \ "print modename of reference location" # setup_xfail "*-*-*" test_print_accept "print ref3l" "ref3\\(H'.*\\)" \ "print reference location" test_print_accept "ptype ref4l" "PTR" "print mode of reference location" # setup_xfail "*-*-*" test_print_accept "whatis ref4l" "ref4" \ "print modename of reference location" # setup_xfail "*-*-*" test_print_accept "print ref4l" "ref4\\(H'.*\\)" \ "print reference location" test_print_accept "ptype ref5l" "PTR" "print mode of reference location" test_print_accept "whatis ref5l" "PTR" \ "print modename of reference location" test_print_accept "print ref5l" "PTR\\(H'.*\\)" \ "print reference location" # dereference a little bit.. test_print_accept "print ref6l->syn_int" "42" \ "dereference reference to synmode location" test_print_accept "print ref7l->int" "-42" \ "dereference reference to predefined mode location" test_print_accept "print ref8l->pm1" \ "\[\[\]p1:p10\[\]\]" \ "dereference reference to newmode location" # synchronization mode locations # FIXME: synchronization modes are not supported so far... xfail "no synchronization mode location support, not implemented yet" # timing mode locations # FIXME: callbacks to abstime, inttime not implemented xfail "timing modes not implemented properly yet" # char string locations # some tests are don in chillvars.exp test_print_accept "ptype strl1" \ "CHARS \\(7\\) VARYING" \ "print varying string location" test_print_accept "whatis strl1" "strm2" \ "print string locationa mode name" test_print_accept "print strl1" \ {\"hansi\^\(0\)\"} \ "print string location" # string elements test_print_accept "print strl1(0)" "\'h\'" \ "print string element 1" test_print_accept "print strl1(5)" {'\^[(]0[)]'} \ "print string element 2" test_print_accept "print strl1(3)" "\'s\'" \ "print string element 3" test_print_accept "ptype strl1(0)" "char" \ "print mode of string element" # slices test_print_accept "print strl1(3:4)" "\"si\"" \ "print string slice 1" test_print_accept "print strl1(0:5)" \ {\"hansi\^\(0\)\"} \ "print string slice 2" test_print_accept "print strl1(0:0)" "\"h\"" \ "print string slice 3" test_print_accept "print strl1(0 up 6)" \ {\"hansi\^\(0\)\"} \ "print string slice 4" # FIXME: adjust error message, when implented gdb_test "print strl1(6 up 1)" \ ".*slice.*out of range.*" \ "print invalid string slice length" gdb_test "print strl1(-1 up 5)" \ ".*slice.*out of range.*" \ "print invalid string slice length" gdb_test "print strl1(-1:5)" \ ".*slice.*out of range.*" \ "print invalid string slice" gdb_test "print strl1(-1:7)" \ ".*slice.*out of range.*" \ "print invalid string slice" gdb_test "print strl1(0 up -1)" \ ".*slice.*out of range.*" \ "print invalid string slice length" gdb_test "print strl1(0 up 0)" {""} # bitstring locations test_print_accept "ptype bstr1" \ "BOOLS \\(20\\)" \ "print mode of bitstring location" test_print_accept "whatis bstrl1" "bstr1" \ "print mode name of bitstring location" test_print_accept "print bstrl1" \ "B'10101010101010101010'" \ "print bitstring location" test_print_accept "ptype bstrl1(0)" "bool|BOOL" \ "print mode of bitstring element" test_print_accept "print bstrl1(0)" "TRUE" \ "print bitstring element 1" test_print_accept "print bstrl1(19)" "FALSE" \ "print bitstring element 2" test_print_accept "print bstrl1(10)" "TRUE" \ "print bitstring element 3" test_print_accept "print bstrl1(0:19)" \ "B'10101010101010101010'" \ "print bitstring location slice 1" test_print_accept "print bstrl1(0:0)" \ "B'1'" \ "print bitstring location slice 2" test_print_accept "print bstrl1(3:9)" \ "B'0101010'" \ "print bitstring location slice 3" test_print_accept "print bstrl1(0 up 20)" \ "B'10101010101010101010'" \ "print bitstring location slice 4" test_print_accept "print bstrl1(19 up 1)" \ "B'0'" \ "print bitstring location slice 5" gdb_test "print bstrl1(20 up 1)" \ ".*slice out of range.*" \ "print invalid bitstring slice (20 up 1)" gdb_test "print bstrl1(-4:5)" \ ".*slice out of range.*" \ "print invalid bitstring slice (-4:5)" gdb_test "print bstrl1(-1:up 1)" \ ".*invalid expression syntax.*" \ "print invalid bitstring slice (-1:ip 1)" gdb_test "print bstrl1(-1:20)" \ ".*slice out of range.*" \ "print invalid bitstring slice (-1:20)" gdb_test "print bstrl1(0 up -1)" \ ".*slice out of range.*" \ "print invalid bitstring slice (0 up -1)" test_print_accept "print bstrl1(4 up 0)" "B''" # array mode locations gdb_test_exact "ptype arrl1" \ "ARRAY (1:100) set1" \ "print mode of array location" gdb_test "whatis arrl1" "arr1m" \ "print mode name of array location" gdb_test_exact "print arrl1" {[(1:100): aaa]} \ "print array location" test_print_accept "ptype arrl1(1)" \ "SET \\(aaa, bbb, ccc\\)" \ "print mode of array element" gdb_test_exact "print arrl3" \ {[(1:5): [(1:3): [(1:2): -2147483648]]]} \ "print array location 2" gdb_test_exact "print arrl3(1)" \ {[(1:3): [(1:2): -2147483648]]} \ "print array location 3" gdb_test_exact "ptype arrl3(1)" \ {ARRAY (1:3) ARRAY (1:2) long} \ "print mode of array element" test_print_accept "print arrl3(5)" \ {\[\(1:3\): \[\(1:2\): -2147483648\]\]} \ "print array location 4" test_print_accept "print arrl3(1,1)" \ {\[\(1:2\): -2147483648\]} \ "print array location 5" test_print_accept "ptype arrl3(1,1)" \ {ARRAY \(1:2\) long} \ "print mode of array element" test_print_accept "print arrl3(5,3)" \ {\[\(1:2\): -2147483648\]} \ "print array location 6" test_print_accept "print arrl3(1,1,1)" \ "-2147483648" \ "print array location 7" test_print_accept "print arrl3(5,3,2)" \ "-2147483648" \ "print array location 8" test_print_accept "print arrl3(1)(3)(2)" \ "-2147483648" \ "print array location 9" # reject the following range fails # FIXME: adjust error messages gdb_test "print arrl3(-1)" \ ".*out of range.*" \ "check invalid array indices 1" gdb_test "print arrl3(6)" \ ".*out of range.*" \ "check invalid array indices 2" gdb_test "print arrl3(0,0)" \ ".*out of range.*" \ "check invalid array indices 3" gdb_test "print arrl3(1,0)" \ ".*out of range.*" \ "check invalid array indices 4" gdb_test "print arrl3(1,4)" \ ".*out of range.*" \ "check invalid array indices 5" gdb_test "print arrl3(6,4)" \ ".*out of range.*" \ "check invalid array indices 6" gdb_test "print arrl3(1,1,0)" \ ".*out of range.*" \ "check invalid array indices 7" gdb_test "print arrl3(6,4,0)" \ ".*out of range.*" \ "check invalid array indices 8" gdb_test "print arrl3(1,1,3)" \ ".*out of range.*" \ "check invalid array indices 9" gdb_test "print arrl3(0)(0)" \ ".* array or string index out of range.*" \ "check invalid array indices 10" gdb_test "print arrl3(1)(0)" \ ".* array or string index out of range.*" \ "check invalid array indices 11" gdb_test "print arrl3(1)(4)" \ ".* array or string index out of range.*" \ "check invalid array indices 12" gdb_test "print arrl3(6)(4)" \ ".* array or string index out of range.*" \ "check invalid array indices 13" gdb_test "print arrl3(1)(1)(0)" \ ".* array or string index out of range.*" \ "check invalid array indices 14" gdb_test "print arrl3(6)(4)(0)" \ ".* array or string index out of range.*" \ "check invalid array indices 15" gdb_test "print arrl3(1)(1)(3)" \ ".* array or string index out of range.*" \ "check invalid array indices 16" # slices test_print_accept "print arrl4(1:3)" \ {\[\(1:2\): \[\(1:3\): \[\(1:2\): -2147483648\]\], \(3\): \[\(1:3\): \[\(1:2\): 100\]\]\]} \ "print array slice 1" test_print_accept "ptype arrl4(1:3)" \ {ARRAY \(1:3\) ARRAY \(1:3\) ARRAY \(1:2\) long} \ "print mode of array slice" # The next one is bogus: # test_print_accept "print arrl4(5, 2:3, 1)" \ # # FIXME: maybe the '(1): ' in the inner tupel should be omitted ? \ # {\[(2): \[\(1\): 100\], \(3\):\[\(1\): 100\]\]} \ # "print array slice 2" test_print_accept "print arrl4(1 up 4)" \ {\[\(1:2\): \[\(1:3\): \[\(1:2\): -2147483648\]\], \(3\): \[\(1:3\): \[\(1:2\): 100\]\], \(4\): \[\(1:3\): \[\(1:2\): -2147483648\]\]\]} \ "print array slice 3" # The next two are bogus: # test_print_accept "print arrl4(3, 2 up 1)" \ # {\[\(2:3\): \[\(1:2\): 100\]\]} \ # "print array slice 4" # test_print_accept "print arrl4(1:2, 1 up 1, 2)" \ # {\[\(1\): \[\(1\): \[\(2\): -2147483648\], \(2\): \[\(2\): -2147483648\]\], \(2\): \[\(1\): \[\(2\): -2147483648\], \(2\): \[\(2\): -2147483648\]\]\]} \ # "print array slice 4" # reject invalid slices # FIXME: adjust error messages gdb_test "print arrl4(5:6)" \ ".*slice out of range.*" \ "check invalid range 1" gdb_test "print arrl4(0:1)" \ ".*slice out of range.*" \ "check invalid range 2" gdb_test "print arrl4(0:6)" \ ".*slice out of range.*" \ "check invalid range 3" gdb_test "print arrl4(3:2)" \ ".*slice out of range.*" \ "check invalid range 4" gdb_test "print arrl4(1,3:4)" \ ".*syntax error.*" \ "check invalid range 5" gdb_test "print arrl4(1,0:1)" \ ".*syntax error.*" \ "check invalid range 6" gdb_test "print arrl4(1,0:4)" \ ".*syntax error.*" \ "check invalid range 7" gdb_test "print arrl4(1,3:2)" \ ".*syntax error.*" \ "check invalid range 8" gdb_test "print arrl4(5 up 2)" \ ".*slice out of range.*" \ "check invalid range 9" gdb_test "print arrl4(-1 up 1)" \ ".*slice out of range.*" \ "check invalid range 10" gdb_test "print arrl4(-1 up 7)" \ ".*slice out of range.*" \ "check invalid range 11" gdb_test "print arrl4(1 up 0)" \ ".*slice out of range.*" \ "check invalid range 12" gdb_test "print arrl4(1,3 up 1)" \ ".*syntax error.*" \ "check invalid range 13" gdb_test "print arrl4(1,-1 up 1)" \ ".*syntax error.*" \ "check invalid range 14" gdb_test "print arrl4(1,-1 up 5)" \ ".*syntax error.*" \ "check invalid range 15" gdb_test "print arrl4(1,2 up 0)" \ ".*syntax error.*" \ "check invalid range 16" # structure modes # some tests are in chillvars.exp # FIXME: no tag processing implemented do maybe adjust these tests setup_xfail "*-*-*" test_print_accept "ptype stru1m" \ "STRUCT \\(.*a long,.*b long,.*CASE b OF.*\\(42\\):.*ch1 CHARS\\(20\\),.*\\(52\\):.*ch2 CHARS\\(10\\).*ELSE.*ch3 CHARS\\(1\\).*ESAC.*\\)" \ "print mode of structure location 1" test_print_accept "whatis strul1" "stru1m" \ "print mode name of structure location 1" setup_xfail "*-*-*" test_print_accept "print strul1" \ {\[\.a: -2147483648, \.b: 42, \.\(b\): \{\(42\) = \[\.ch1: \"12345678900987654321\"\], \(52\) = \[\.ch2: \"1234567890\"\], (else) = \[\.ch3: \"1\"\]\}\]} \ "print structure location 1" test_print_accept "print strul1.a" \ "-2147483648" \ "print field of structure location 1" test_print_accept "print strul1.b" "42" \ "print field of structure location 1" test_print_accept "print strul1.ch1" \ "\"12345678900987654321\"" \ "print field of structure location 1" # setup_xfail "*-*-*" test_print_accept "print strul1.ch2" \ "\"1234567890\"" \ "print field of structure location 1" # setup_xfail "*-*-*" test_print_accept "print strul1.ch3" \ "\"1\"" \ "print field of structure location 1" if $passcount then { pass "$passcount correct locations printed" } } # This is chill/9434 proc test_9434 {} { global passcount verbose "testing pr-9434" test_print_accept "ptype m_xyzmode" "STRUCT \\(.*next REF m_xyzmode,.*i long.*\\)" } # Start with a fresh gdb. gdb_exit gdb_start gdb_reinitialize_dir $srcdir/$subdir gdb_test "set print sevenbit-strings" ".*" if [set_lang_chill] then { test_modes test_locations test_9434 } else { warning "$test_name tests suppressed." }