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# Copyright (C) 2008-2022 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 <http://www.gnu.org/licenses/>.

# This file is part of the GDB testsuite.  It tests the mechanism
# exposing values to Python.

load_lib gdb-python.exp

standard_testfile

set has_argv0 [gdb_has_argv0]

# Build inferior to language specification.
# LANG is one of "c" or "c++".
proc build_inferior {exefile lang} {
  global srcdir subdir srcfile testfile hex

  # Use different names for .o files based on the language.
  # For Fission, the debug info goes in foo.dwo and we don't want,
  # for example, a C++ compile to clobber the dwo of a C compile.
  # ref: http://gcc.gnu.org/wiki/DebugFission
  switch ${lang} {
      "c" { set filename ${testfile}.o }
      "c++" { set filename ${testfile}-cxx.o }
  }
  set objfile [standard_output_file $filename]

  if { [gdb_compile "${srcdir}/${subdir}/${srcfile}" "${objfile}" object "debug $lang"] != ""
       || [gdb_compile "${objfile}" "${exefile}" executable "debug $lang"] != "" } {
      untested "failed to compile in $lang mode"
      return -1
  }
  return 0
}

proc test_value_creation {} {
  global gdb_prompt

  gdb_py_test_silent_cmd "python i = gdb.Value (True)" "create boolean value" 1
  gdb_py_test_silent_cmd "python i = gdb.Value (5)" "create integer value" 1
  gdb_py_test_silent_cmd "python i = gdb.Value (3,None)" "create integer value, with None type" 1

  gdb_py_test_silent_cmd "python l = gdb.Value(0xffffffff12345678)" "create large unsigned 64-bit value" 1
  gdb_test "python print (int(l))" "18446744069720004216" "large unsigned 64-bit int conversion to python"

  gdb_py_test_silent_cmd "python f = gdb.Value (1.25)" "create double value" 1
  gdb_py_test_silent_cmd "python a = gdb.Value ('string test')" "create 8-bit string value" 1
  gdb_test "python print (a)" "\"string test\"" "print 8-bit string"
  gdb_test "python print (a.__class__)" "<(type|class) 'gdb.Value'>" "verify type of 8-bit string"

  # Test address attribute is None in a non-addressable value
  gdb_test "python print ('result = %s' % i.address)" "= None" "test address attribute in non-addressable value"
}

# Check that we can call gdb.Value.__init__ to change a value.
proc test_value_reinit {} {
    gdb_py_test_silent_cmd "python v = gdb.Value (3)" \
	"create initial integer value" 1
    gdb_test "python print(v)" "3" \
	"check initial value contents"
    gdb_py_test_silent_cmd "python v.__init__(5)" \
	"call gdb.Value.__init__ manually" 1
    gdb_test "python print(v)" "5" \
	"check new value contents"
}

proc test_value_numeric_ops {} {
  global gdb_prompt

  gdb_py_test_silent_cmd "python i = gdb.Value (5)" "create first integer value" 0
  gdb_py_test_silent_cmd "python j = gdb.Value (2)" "create second integer value" 0
  gdb_py_test_silent_cmd "python f = gdb.Value (1.25)" "create first double value" 0
  gdb_py_test_silent_cmd "python g = gdb.Value (2.5)" "create second double value" 0
  gdb_test "python print ('result = ' + str(i+j))" " = 7" "add two integer values"
  gdb_test "python print ((i+j).__class__)" "<(type|class) 'gdb.Value'>" "verify type of integer add result"

  gdb_test "python print ('result = ' + str(f+g))" " = 3.75" "add two double values"
  gdb_test "python print ('result = ' + str(i-j))" " = 3" "subtract two integer values"
  gdb_test "python print ('result = ' + str(f-g))" " = -1.25" "subtract two double values"
  gdb_test "python print ('result = ' + str(i*j))" " = 10" "multiply two integer values"
  gdb_test "python print ('result = ' + str(f*g))" " = 3.125" "multiply two double values"
  gdb_test "python print ('result = ' + str(i/j))" " = 2" "divide two integer values"
  gdb_test "python print ('result = ' + str(f/g))" " = 0.5" "divide two double values"
  gdb_test "python print ('result = ' + str(i%j))" " = 1" "take remainder of two integer values"
  # Remainder of float is implemented in Python but not in GDB's value system.

  gdb_test "python print ('result = ' + str(i**j))" " = 25" "integer value raised to the power of another integer value"
  gdb_test "python print ('result = ' + str(g**j))" " = 6.25" "double value raised to the power of integer value"

  gdb_test "python print ('result = ' + str(-i))" " = -5" "negated integer value"
  gdb_test "python print ('result = ' + str(+i))" " = 5" "positive integer value"
  gdb_test "python print ('result = ' + str(-f))" " = -1.25" "negated double value"
  gdb_test "python print ('result = ' + str(+f))" " = 1.25" "positive double value"
  gdb_test "python print ('result = ' + str(abs(j-i)))" " = 3" "absolute of integer value"
  gdb_test "python print ('result = ' + str(abs(f-g)))" " = 1.25" "absolute of double value"

  # Test gdb.Value mixed with Python types.

  gdb_test "python print ('result = ' + str(i-1))" " = 4" "subtract integer value from python integer"
  gdb_test "python print ((i-1).__class__)" "<(type|class) 'gdb.Value'>" "verify type of mixed integer subtraction result"
  gdb_test "python print ('result = ' + str(f+1.5))" " = 2.75" "add double value with python float"

  gdb_test "python print ('result = ' + str(1-i))" " = -4" "subtract python integer from integer value"
  gdb_test "python print ('result = ' + str(1.5+f))" " = 2.75" "add python float with double value"

  # Conversion test.
  gdb_test "print evalue" " = TWO"
  gdb_test_no_output "python evalue = gdb.history (0)"
  gdb_test "python print (int (evalue))" "2"

  # Test pointer arithmethic

  # First, obtain the pointers
  gdb_test "print (void *) 2" ".*" ""
  gdb_test_no_output "python a = gdb.history (0)" ""
  gdb_test "print (void *) 5" ".*" ""
  gdb_test_no_output "python b = gdb.history (0)" ""

  gdb_test "python print(int(b))" "5" "convert pointer to int"

  gdb_test "python print ('result = ' + str(a+5))" " = 0x7( <.*>)?" "add pointer value with python integer"
  gdb_test "python print ('result = ' + str(b-2))" " = 0x3( <.*>)?" "subtract python integer from pointer value"
  gdb_test "python print ('result = ' + str(b-a))" " = 3" "subtract two pointer values"

  gdb_test "python print ('result = ' + 'result'\[gdb.Value(0)\])" \
    "result = r" "use value as string index"
  gdb_test "python print ('result = ' + str((1,2,3)\[gdb.Value(0)\]))" \
    "result = 1" "use value as tuple index"
  gdb_test "python print ('result = ' + str(\[1,2,3\]\[gdb.Value(0)\]))" \
    "result = 1" "use value as array index"

  gdb_test "python print('%x' % int(gdb.parse_and_eval('-1ull')))" \
      "f+" "int conversion respect type sign"

  # Test some invalid operations.

  gdb_test_multiple "python print ('result = ' + str(i+'foo'))" "catch error in python type conversion" {
      -re "Argument to arithmetic operation not a number or boolean.*$gdb_prompt $"   {pass "catch error in python type conversion"}
      -re "result = .*$gdb_prompt $"		      {fail "catch error in python type conversion"}
      -re "$gdb_prompt $"			      {fail "catch error in python type conversion"}
  }

  gdb_test_multiple "python print ('result = ' + str(i+gdb.Value('foo')))" "catch throw of GDB error" {
      -re "Traceback.*$gdb_prompt $"  {pass "catch throw of GDB error"}
      -re "result = .*$gdb_prompt $"  {fail "catch throw of GDB error"}
      -re "$gdb_prompt $"	      {fail "catch throw of GDB error"}
  }
}

proc test_value_boolean {} {
  # First, define a useful function to test booleans.
  gdb_test_multiline "define function to test booleans" \
    "python" "" \
    "def test_bool (val):" "" \
    "  if val:" "" \
    "    print ('yay')" "" \
    "  else:" "" \
    "    print ('nay')" "" \
    "end" ""

  gdb_test "py test_bool (gdb.Value (True))" "yay" "check evaluation of true boolean value in expression"

  gdb_test "py test_bool (gdb.Value (False))" "nay" "check evaluation of false boolean value in expression"

  gdb_test "py test_bool (gdb.Value (5))" "yay" "check evaluation of true integer value in expression"

  gdb_test "py test_bool (gdb.Value (0))" "nay" "check evaluation of false integer value in expression"

  gdb_test "py test_bool (gdb.Value (5.2))" "yay" "check evaluation of true float value in expression"

  gdb_test "py test_bool (gdb.Value (0.0))" "nay" "check evaluation of false float value in expression"
}

proc test_value_compare {} {
  gdb_test "py print (gdb.Value (1) < gdb.Value (1))" "False" "less than, equal"
  gdb_test "py print (gdb.Value (1) < gdb.Value (2))" "True" "less than, less"
  gdb_test "py print (gdb.Value (2) < gdb.Value (1))" "False" "less than, greater"
  gdb_test "py print (gdb.Value (2) < None)" "False" "less than, None"

  gdb_test "py print (gdb.Value (1) <= gdb.Value (1))" "True" "less or equal, equal"
  gdb_test "py print (gdb.Value (1) <= gdb.Value (2))" "True" "less or equal, less"
  gdb_test "py print (gdb.Value (2) <= gdb.Value (1))" "False" "less or equal, greater"
  gdb_test "py print (gdb.Value (2) <= None)" "False" "less or equal, None"

  gdb_test "py print (gdb.Value (1) == gdb.Value (1))" "True" "equality of gdb.Values"
  gdb_test "py print (gdb.Value (1) == gdb.Value (2))" "False" "inequality of gdb.Values"
  gdb_test "py print (gdb.Value (1) == 1.0)" "True" "equality of gdb.Value with Python value"
  gdb_test "py print (gdb.Value (1) == 2)" "False" "inequality of gdb.Value with Python value"
  gdb_test "py print (gdb.Value (1) == None)" "False" "inequality of gdb.Value with None"

  gdb_test "py print (gdb.Value (1) != gdb.Value (1))" "False" "inequality, false"
  gdb_test "py print (gdb.Value (1) != gdb.Value (2))" "True" "inequality, true"
  gdb_test "py print (gdb.Value (1) != None)" "True" "inequality, None"

  gdb_test "py print (gdb.Value (1) > gdb.Value (1))" "False" "greater than, equal"
  gdb_test "py print (gdb.Value (1) > gdb.Value (2))" "False" "greater than, less"
  gdb_test "py print (gdb.Value (2) > gdb.Value (1))" "True" "greater than, greater"
  gdb_test "py print (gdb.Value (2) > None)" "True" "greater than, None"

  gdb_test "py print (gdb.Value (1) >= gdb.Value (1))" "True" "greater or equal, equal"
  gdb_test "py print (gdb.Value (1) >= gdb.Value (2))" "False" "greater or equal, less"
  gdb_test "py print (gdb.Value (2) >= gdb.Value (1))" "True" "greater or equal, greater"
  gdb_test "py print (gdb.Value (2) >= None)" "True" "greater or equal, None"
}

proc test_value_in_inferior {} {
  global gdb_prompt
  global testfile

  gdb_breakpoint [gdb_get_line_number "break to inspect struct and union"]
  gdb_continue_to_breakpoint "break to inspect struct and union"

  # Just get inferior variable s in the value history, available to python.
  gdb_test "print s" " = {a = 3, b = 5}" ""

  gdb_py_test_silent_cmd "python s = gdb.history (0)" "get value s from history" 1

  gdb_test "python print ('result = ' + str(s\['a'\]))" " = 3" "access element inside struct using 8-bit string name"

  # Test dereferencing the argv pointer

  # Just get inferior variable argv the value history, available to python.
  gdb_test "print argv" " = \\(char \\*\\*\\) 0x.*" ""

  gdb_py_test_silent_cmd "python argv = gdb.history (0)" "" 0
  gdb_py_test_silent_cmd "python arg0 = argv.dereference ()" "dereference value" 1

  # Check that the dereferenced value is sane
  global has_argv0
  set test "verify dereferenced value"
  if { $has_argv0 } {
    gdb_test_no_output "set print elements unlimited" ""
    gdb_test_no_output "set print repeats unlimited" ""
    gdb_test "python print (arg0)" "0x.*$testfile\"" $test
  } else {
    unsupported $test
  }

  # Smoke-test is_optimized_out attribute
  gdb_test "python print ('result = %s' % arg0.is_optimized_out)" "= False" "test is_optimized_out attribute"

  # Test address attribute
  gdb_test "python print ('result = %s' % arg0.address)" "= 0x\[\[:xdigit:\]\]+" "test address attribute"

  # Test displaying a variable that is temporarily at a bad address.
  # But if we can examine what's at memory address 0, then we'll also be
  # able to display it without error.  Don't run the test in that case.
  set can_read_0 [is_address_zero_readable]

  # Test memory error.
  set test "parse_and_eval with memory error"
  if {$can_read_0} {
    untested $test
  } else {
    gdb_test "python print (gdb.parse_and_eval('*(int*)0'))" "gdb.MemoryError: Cannot access memory at address 0x0.*" $test
  }

  # Test Python lazy value handling
  set test "memory error and lazy values"
  if {$can_read_0} {
    untested $test
  } else {
    gdb_test "python inval = gdb.parse_and_eval('*(int*)0')"
    gdb_test "python print (inval.is_lazy)" "True"
    gdb_test "python inval2 = inval+1" \
	"gdb.MemoryError: Cannot access memory at address 0x0.*" \
	"$test, first test"
    gdb_test "python inval.fetch_lazy ()" \
	"gdb.MemoryError: Cannot access memory at address 0x0.*" \
	"$test, second test"
  }
  set argc_value [get_integer_valueof "argc" 0]
  gdb_test "python argc_lazy = gdb.parse_and_eval('argc')"
  gdb_test "python argc_notlazy = gdb.parse_and_eval('argc')"
  gdb_test "python argc_notlazy.fetch_lazy()"
  gdb_test "python print (argc_lazy.is_lazy)" "True" \
      "python print (argc_lazy.is_lazy) the first time"
  gdb_test "python print (argc_notlazy.is_lazy)" "False"
  gdb_test "print argc" " = $argc_value" "sanity check argc"
  gdb_test "python print (argc_lazy.is_lazy)" "\r\nTrue" \
      "python print (argc_lazy.is_lazy) the second time"
  gdb_test_no_output "set argc=[expr $argc_value + 1]" "change argc"
  gdb_test "python print (argc_notlazy)" "\r\n$argc_value"
  gdb_test "python print (argc_lazy)" "\r\n[expr $argc_value + 1]"
  gdb_test "python print (argc_lazy.is_lazy)" "False"

  # Test string fetches,  both partial and whole.
  gdb_test "print st" "\"divide et impera\""
  gdb_py_test_silent_cmd "python st = gdb.history (0)" "get value st from history" 1
  gdb_test "python print (st.string ())"  "divide et impera"  "Test string with no length"
  gdb_test "python print (st.string (length = -1))" "divide et impera" "test string (length = -1) is all of the string"
  gdb_test "python print (st.string (length = 6))" "divide"
  gdb_test "python print (\"---\"+st.string (length = 0)+\"---\")" "------" "test string (length = 0) is empty"
  gdb_test "python print (len(st.string (length = 0)))" "0" "test length is 0"

  # We choose Ada here to test a language where c_style_arrays is
  # false.
  gdb_test "set lang ada" \
      "Warning: the current language does not match this frame."
  gdb_test "python print (st.string ())"  "divide et impera"  \
      "Test string with no length in ada"
  gdb_test_no_output "set lang auto"

  # Fetch a string that has embedded nulls.
  gdb_test "print nullst" "\"divide\\\\000et\\\\000impera\".*"
  gdb_py_test_silent_cmd "python nullst = gdb.history (0)" "get value nullst from history" 1
  gdb_test "python print (nullst.string ())" "divide" "test string to first null"
  # Python cannot print strings that contain the null (\0) character.
  # For the purposes of this test, use repr()
  gdb_py_test_silent_cmd "python nullst = nullst.string (length = 9)" "get string beyond null" 1
  gdb_test "python print (repr(nullst))" "u?'divide\\\\x00et'"

  # Test fetching a string longer than its declared (in C) size.
  # PR 16286
  gdb_py_test_silent_cmd "python xstr = gdb.parse_and_eval('xstr')" "get xstr" 1
  gdb_test "python print(xstr\['text'\].string (length = xstr\['length'\]))" "x{100}" \
    "read string beyond declared size"

  # However it shouldn't be possible to fetch past the end of a
  # non-memory value.
  gdb_py_test_silent_cmd "python str = '\"str\"'" "set up str variable" 1
  gdb_test "python print (gdb.parse_and_eval (str).string (length = 10))" \
      "gdb.error: Attempt to take address of value not located in memory.\r\nError while executing Python code."
}

proc test_inferior_function_call {} {
    global gdb_prompt hex decimal

    # Correct inferior call without arguments.
    gdb_test "p/x fp1" " = $hex.*"
    gdb_py_test_silent_cmd "python fp1 = gdb.history (0)" "get value fp1 from history" 1
    gdb_test "python fp1 = fp1.dereference()" ""
    gdb_test "python result = fp1()" ""
    gdb_test "python print (result)" "void"

    # Correct inferior call with arguments.
    gdb_test "p/x fp2" " = $hex.*" \
	"print fp2 to place it into history"
    gdb_py_test_silent_cmd "python fp2 = gdb.history (0)" "get value fp2 from history" 1
    gdb_test "python fp2 = fp2.dereference()" ""
    gdb_test "python result2 = fp2(10,20)" ""
    gdb_test "python print (result2)" "30"

    # Incorrect to call an int value.
    gdb_test "p i" " = $decimal.*"
    gdb_py_test_silent_cmd "python i = gdb.history (0)" "get value i from history" 1
    gdb_test "python result3 = i()" ".*Value is not callable.*"

    # Incorrect number of arguments.
    gdb_test "p/x fp2" " = $hex.*" \
	"print fp2 again to place it into history"
    gdb_py_test_silent_cmd "python fp3 = gdb.history (0)" "get value fp3 from history" 1
    gdb_test "python fp3 = fp3.dereference()" ""
    gdb_test "python result2 = fp3(10)" ".*Too few arguments in function call.*"
}

# A few objfile tests.
proc test_objfiles {} {
    gdb_test "python\nok=False\nfor file in gdb.objfiles():\n  if 'py-value' in file.filename:\n    ok=True\nprint (ok)\nend" "True" \
	     "py-value in file.filename"

    gdb_test "python print (gdb.objfiles()\[0\].pretty_printers)" "\\\[\\\]"

    gdb_test "python gdb.objfiles()\[0\].pretty_printers = 0" \
      "pretty_printers attribute must be a list.*Error while executing Python code."
}

proc test_value_after_death {} {
  # Construct a type while the inferior is still running.
  gdb_py_test_silent_cmd "python ptrtype = gdb.lookup_type('PTR')" \
    "create PTR type" 1

  # Kill the inferior and remove the symbols.
  gdb_test "kill" "" "kill the inferior" \
    "Kill the program being debugged. .y or n. $" \
    "y"
  gdb_test "file" "" "discard the symbols" \
    "Discard symbol table from.*y or n. $" \
    "y"

  # Now create a value using that type.  Relies on arg0, created by
  # test_value_in_inferior.
  gdb_py_test_silent_cmd "python castval = arg0.cast(ptrtype.pointer())" \
    "cast arg0 to PTR" 1

  # Make sure the type is deleted.
  gdb_py_test_silent_cmd "python ptrtype = None" \
    "delete PTR type" 1

  # Now see if the value's type is still valid.
  gdb_test "python print (castval.type)" "PTR ." \
    "print value's type"
}

# Regression test for invalid subscript operations.  The bug was that
# the type of the value was not being checked before allowing a
# subscript operation to proceed.

proc test_subscript_regression {exefile lang} {
 # Start with a fresh gdb.
 clean_restart ${exefile}

 if ![runto_main ] then {
     perror "couldn't run to breakpoint"
     return
 }

 if {$lang == "c++"} {
     gdb_breakpoint [gdb_get_line_number "break to inspect pointer by reference"]
     gdb_continue_to_breakpoint "break to inspect pointer by reference"

     gdb_py_test_silent_cmd "print rptr_int" \
	 "Obtain address" 1
     gdb_py_test_silent_cmd "python rptr = gdb.history(0)" \
	 "Obtains value from GDB" 1
     gdb_test "python print (rptr\[0\])" "2" "check pointer passed as reference"

     # Just the most basic test of dynamic_cast -- it is checked in
     # the C++ tests.
     gdb_test "python print (bool(gdb.parse_and_eval('base').dynamic_cast(gdb.lookup_type('Derived').pointer())))" \
	 True

     # Likewise.
     gdb_test "python print (gdb.parse_and_eval('base').dynamic_type)" \
	 "Derived \[*\]"
     gdb_test "python print (gdb.parse_and_eval('base_ref').dynamic_type)" \
	 "Derived \[&\]"
     # A static type case.
     gdb_test "python print (gdb.parse_and_eval('5').dynamic_type)" \
	 "int"
 }

 gdb_breakpoint [gdb_get_line_number "break to inspect struct and union"]
 gdb_continue_to_breakpoint \
     "break to inspect struct and union for subscript regression test"

 gdb_py_test_silent_cmd "python intv = gdb.Value(1)" \
     "Create value intv for subscript test" 1
 gdb_py_test_silent_cmd "python stringv = gdb.Value(\"foo\")" \
     "Create value stringv for subscript test" 1

 # Try to access an int with a subscript.  This should fail.
 gdb_test "python print (intv)" "1" "baseline print of an int Python value"
 gdb_test "python print (intv\[0\])" "gdb.error: Cannot subscript requested type.*" \
     "Attempt to access an integer with a subscript"

 # Try to access a string with a subscript.  This should pass.
 gdb_test "python print (stringv)" "foo." "baseline print of a string Python value"
 gdb_test "python print (stringv\[0\])" "f." "attempt to access a string with a subscript"

 # Try to access an int array via a pointer with a subscript.  This should pass.
 gdb_py_test_silent_cmd "print p" "Build pointer to array" 1
 gdb_py_test_silent_cmd "python pointer = gdb.history(0)" "fetch pointer" 0
 gdb_test "python print (pointer\[0\])" "1" "access array via pointer with int subscript"
 gdb_test "python print (pointer\[intv\])" "2" "access array via pointer with value subscript"

 # Try to access a single dimension array with a subscript to the
 # result.  This should fail.
 gdb_test "python print (pointer\[intv\]\[0\])" "gdb.error: Cannot subscript requested type.*" \
     "Attempt to access a single dimension array with a two subscripts"

 # Lastly, test subscript access to an array with multiple
 # dimensions.  This should pass.
 gdb_py_test_silent_cmd "print {\"fu \",\"foo\",\"bar\"}" "Build array" 1
 gdb_py_test_silent_cmd "python marray = gdb.history(0)" "fetch marray" 0
 gdb_test "python print (marray\[1\]\[2\])" "o." "test multiple subscript"
}

# A few tests of gdb.parse_and_eval.
proc test_parse_and_eval {} {
  gdb_test "python print (gdb.parse_and_eval ('23'))" "23" \
    "parse_and_eval constant test"
  gdb_test "python print (gdb.parse_and_eval ('5 + 7'))" "12" \
    "parse_and_eval simple expression test"
  gdb_test "python print (type(gdb.parse_and_eval ('5 + 7')))" \
    ".(type|class) 'gdb.Value'."\
    "parse_and_eval type test"
}

# Test that values are hashable.
proc test_value_hash {} {
  gdb_test_multiline "Simple Python value dictionary" \
    "python" "" \
    "one = gdb.Value(1)" "" \
    "two = gdb.Value(2)" "" \
    "three = gdb.Value(3)" "" \
    "vdict = {one:\"one str\",two:\"two str\",three:\"three str\"}" "" \
    "end"
    gdb_test "python print (vdict\[one\])" "one str" "test dictionary hash for one"
    gdb_test "python print (vdict\[two\])" "two str" "test dictionary hash for two"
    gdb_test "python print (vdict\[three\])" "three str" "test dictionary hash for three"
    gdb_test "python print (one.__hash__() == hash(one))" "True" "test inbuilt hash"
}

proc test_float_conversion {} {
    gdb_test "python print(int(gdb.Value(0)))" "0"
    gdb_test "python print(int(gdb.Value(2.5)))" "2"
    gdb_test "python print(float(gdb.Value(2.5)))" "2\\.5"
    gdb_test "python print(float(gdb.Value(0)))" "0\\.0"
}

# Setup some Python variables:
#   tp      : a gdb.Type for 'int',
#   size_a  : the size of array 'a' from the inferior,
#   size_a0 : the size of array element 'a[0] from the inferior,
#   addr    : the address of 'a[0]' from the inferior,
#   b       : a buffer containing the full contents of array 'a' from the
#             inferior.
proc prepare_type_and_buffer {} {
  gdb_py_test_silent_cmd "python tp=gdb.lookup_type('int')" "look up int type" 0
  gdb_py_test_silent_cmd "python size_a=gdb.parse_and_eval('sizeof(a)')" \
                         "find size of a" 0
  gdb_py_test_silent_cmd "python size_a0=gdb.parse_and_eval('sizeof(a\[0\])')" \
                         "find size of element of a" 0
  gdb_py_test_silent_cmd "python addr=gdb.parse_and_eval('&a')" \
                         "find address of a" 0
  gdb_py_test_silent_cmd "python b=gdb.selected_inferior().read_memory(addr,size_a)" \
                         "read buffer from memory" 0
}

proc test_value_from_buffer {} {
  global gdb_prompt

  prepare_type_and_buffer
  gdb_test "python v=gdb.Value(b,tp); print(v)" "1" \
            "construct value from buffer"
  gdb_test "python v=gdb.Value(b\[size_a0:\],tp); print(v)" "2" \
            "convert 2nd elem of buffer to value"
  gdb_test "python v=gdb.Value(b\[2*size_a0:\],tp); print(v)" "3" \
           "convert 3rd elem of buffer to value"
  gdb_test "python v=gdb.Value(b\[2*size_a0+1:\],tp); print(v)" \
           "ValueError: Size of type is larger than that of buffer object\..*" \
	   "attempt to convert smaller buffer than size of type"
  gdb_py_test_silent_cmd "python atp=tp.array(2) ; print(atp)" \
                         "make array type" 0
  gdb_py_test_silent_cmd "python va=gdb.Value(b,atp)" \
                         "construct array value from buffer" 0
  gdb_test "python print(va)" "\\{1, 2, 3\\}" "print array value"
  gdb_test "python print(va\[0\])" "1" "print first array element"
  gdb_test "python print(va\[1\])" "2" "print second array element"
  gdb_test "python print(va\[2\])" "3" "print third array element"
  gdb_test "python print(va\[3\])" "gdb\.error: no such vector element.*" \
           "print out of bounds array element"
  gdb_py_test_silent_cmd "python atpbig=tp.array(3)" "make bigger array type" 0
  gdb_test "python vabig=gdb.Value(b,atpbig)" \
           "ValueError: Size of type is larger than that of buffer object\..*" \
	   "attempt to construct large value with small buffer" 
  gdb_test "python v=gdb.Value(2048,tp)" \
           "TypeError: Object must support the python buffer protocol\..*" \
           "attempt to construct value from buffer with non-buffer object"
  gdb_test "python v=gdb.Value(b,'int'); print(v)" \
           "TypeError: type argument must be a gdb\.Type\..*" \
	   "attempt to construct value with string as type"
}

# Test the gdb.add_history API.
proc test_add_to_history {} {
    # Add a gdb.Value to the value history list.
    gdb_test_no_output "python idx = gdb.add_history(gdb.Value(42))" \
	"add value 42 to the history list"
    gdb_test "python print (\"$%d = %s\" % (idx, gdb.history (idx)))" \
	" = 42" "print value 42 from the history list"
    set idx [get_python_valueof "idx" "**DEFAULT**" "get idx for value 42"]
    gdb_test "print \$${idx}" " = 42"

    # Add something to the history list that can be converted into a
    # gdb.Value.
    gdb_test_no_output "python idx = gdb.add_history(84)" \
	"add value to 84 to the history list"
    gdb_test "python print (\"$%d = %s\" % (idx, gdb.history (idx)))" \
	" = 84" "print value 84 from the history list"
    set idx [get_python_valueof "idx" "**DEFAULT**" "get idx for value 84"]
    gdb_test "print \$${idx}" " = 84"

    # Try adding something that can't be converted to a gdb.Value,
    # this should give an error.
    gdb_test "python idx = gdb.add_history(gdb.GdbError(\"an error\"))" \
	"TypeError: Could not convert Python object: .*"
}

# Check we can create sub-classes of gdb.Value.
proc test_value_sub_classes {} {
    prepare_type_and_buffer

    gdb_test_multiline "Create sub-class of gdb.Value" \
	"python" "" \
	"class MyValue(gdb.Value):" "" \
	"  def __init__(self,val,type=None):" "" \
	"    gdb.Value.__init__(self,val,type)" "" \
	"    print(\"In MyValue.__init__\")" "" \
	"end"

    gdb_test "python obj = MyValue (123)" "In MyValue.__init__" \
	"create instance of MyValue"
    gdb_test "python print(obj)" "123" \
	"check printing of MyValue"

    gdb_test "python obj = MyValue(b\[size_a0:\],tp)" "In MyValue.__init__" \
	"convert 2nd elem of buffer to a MyValue"
    gdb_test "python print(obj)" "2" \
	"check printing of MyValue when initiaized with a type"
}

# Test the history count.  This must be the first thing called after
# starting GDB as it depends on there being nothing in the value
# history.
proc test_history_count {} {
    for { set i 0 } { $i < 5 } { incr i } {
	gdb_test "python print('history count is %d' % gdb.history_count())" \
	    "history count is $i" "history count is $i"
	gdb_test "print $i" " = $i"
    }
}

# Build C version of executable.  C++ is built later.
if { [build_inferior "${binfile}" "c"] < 0 } {
    return -1
}

# Start with a fresh gdb.
clean_restart ${binfile}

# Skip all tests if Python scripting is not enabled.
if { [skip_python_tests] } { continue }

test_history_count
test_value_creation
test_value_reinit
test_value_numeric_ops
test_value_boolean
test_value_compare
test_objfiles
test_parse_and_eval
test_value_hash
test_float_conversion
test_add_to_history

# The following tests require execution.

if ![runto_main] then {
    return 0
}

test_value_in_inferior
test_value_from_buffer
test_value_sub_classes
test_inferior_function_call
test_value_after_death

# Test either C or C++ values. 

test_subscript_regression "${binfile}" "c"

if ![skip_cplus_tests] {
    if { [build_inferior "${binfile}-cxx" "c++"] < 0 } {
	return -1
    }
    with_test_prefix "c++" {
	test_subscript_regression "${binfile}-cxx" "c++"
    }
}