# Copyright 2005, 2007 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 3 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, see . if $tracelevel then { strace $tracelevel } load_lib "ada.exp" set testdir "complete" set testfile "${testdir}/foo" set srcfile ${srcdir}/${subdir}/${testfile}.adb set binfile ${objdir}/${subdir}/${testfile} file mkdir ${objdir}/${subdir}/${testdir} if {[gdb_compile_ada "${srcfile}" "${binfile}" executable [list debug ]] != "" } { return -1 } gdb_exit gdb_start gdb_reinitialize_dir $srcdir/$subdir gdb_load ${binfile} set bp_location [gdb_get_line_number "START" ${testdir}/foo.adb] runto "foo.adb:$bp_location" set eol "\[\r\n\]*" # A convenience function that verifies that the "complete EXPR" command # returns the EXPECTED_OUTPUT. proc test_gdb_complete { expr expected_output } { gdb_test "complete p $expr" \ "$expected_output" \ "complete p $expr" } # A convenience function that verifies that the "complete EXPR" command # does not genearte any output. proc test_gdb_no_completion { expr } { # FIXME: brobecker/2007-12-27: How do you verify that the command # output is actually really empty??? For now, the following does # not verify this at all: test_gdb_complete "$expr" "" } # A convenience function that joins all the arguments together, # with a regexp that matches zero-or-more end of lines in between # each argument. This function is ideal to write the expected output # of a GDB command that generates more than a couple of lines, as # this allows us to write each line as a separate string, which is # easier to read by a human being. proc multi_line { args } { return [join $args "\[\r\n\]*"] } # Try a global variable, only one match should be found: test_gdb_complete "my_glob" \ "p my_global_variable" # A global variable, inside a nested package: test_gdb_complete "insi" \ "p inside_variable" # A global variable inside a nested package, but only giving part of # the fully qualified name (top level package name missing): test_gdb_no_completion "inner.insi" # An incomplete nested package name, were lies a single symbol: test_gdb_complete "pck.inne" \ "p pck.inner.inside_variable" # A fully qualified symbol name, mangled... test_gdb_complete "pck__inner__ins" \ "p pck__inner__inside_variable" # A fully qualified symbol name... test_gdb_complete "pck.inner.ins" \ "p pck.inner.inside_variable" # Make sure that "inside" is not returned as a possible completion # for "side"... test_gdb_no_completion "side" # Verify that "Exported_Capitalized" is not returned as a match for # "exported", since its symbol name contains capital letters. test_gdb_no_completion "exported" # check the "<...>" notation. test_gdb_complete "" # A global symbol, created by the binder, that starts with __gnat... test_gdb_complete "__gnat_ada_main_progra" \ "p __gnat_ada_main_program_name" # A global symbol, created by the binder, that starts with __gnat, # and using the '<' notation. test_gdb_complete "<__gnat_ada_main_prog" \ "p <__gnat_ada_main_program_name>" # A local variable test_gdb_complete "some" \ "p some_local_variable" # A local variable variable, but in a different procedure. No match # should be returned. test_gdb_no_completion "not_in_sco" # A fully qualified variable name that doesn't exist... test_gdb_no_completion "pck.ins" # A fully qualified variable name that does exist... test_gdb_complete "pck.my" \ "p pck.my_global_variable" # A fully qualified package name test_gdb_complete "pck.inne" \ "p pck.inner.inside_variable" # A fully qualified package name, with a dot at the end test_gdb_complete "pck.inner." \ "p pck.inner.inside_variable" # Two matches, from the global scope: test_gdb_complete "local_ident" \ [multi_line "p local_identical_one" \ "p local_identical_two" ] # Two matches, from the global scope, but using fully qualified names: test_gdb_complete "pck.local_ident" \ [multi_line "p pck.local_identical_one" \ "p pck.local_identical_two" ] # Two matches, from the global scope, but using mangled fully qualified # names: test_gdb_complete "pck__local_ident" \ [multi_line "p pck__local_identical_one" \ "p pck__local_identical_two" ] # Two matches, one from the global scope, the other from the local scope: test_gdb_complete "external_ident" \ [multi_line "p external_identical_one" \ "p external_identical_two" ] # Complete on the name of package. test_gdb_complete "pck" \ [multi_line "(p pck\\.ad\[sb\])?" \ "(p pck\\.ad\[sb\])?" \ "p pck.external_identical_one" \ "p pck.inner.inside_variable" \ "p pck.local_identical_one" \ "p pck.local_identical_two" \ "p pck.my_global_variable" \ "p pck.proc" ] # Complete on the name of a package followed by a dot: test_gdb_complete "pck." \ [multi_line "(p pck\\.ad\[sb\])?" \ "(p pck\\.ad\[sb\])?" \ "p pck.external_identical_one" \ "p pck.inner.inside_variable" \ "p pck.local_identical_one" \ "p pck.local_identical_two" \ "p pck.my_global_variable" \ "p pck.proc" ] # Complete a mangled symbol name, but using the '<...>' notation. test_gdb_complete ""