# Copyright (C) 2008-2015 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 . # This file is part of the GDB testsuite. # It tests math operations. load_lib gdb-guile.exp standard_testfile proc test_value_numeric_ops {} { global gdb_prompt gdb_scm_test_silent_cmd "gu (define i (make-value 5))" \ "create first integer value" gdb_scm_test_silent_cmd "gu (define j (make-value 2))" \ "create second integer value" gdb_test "gu (print (value-add i j))" \ "= 7" "add two integer values" gdb_test "gu (raw-print (value-add i j))" \ "= #" "verify type of integer add result" gdb_scm_test_silent_cmd "gu (define f (make-value 1.25))" \ "create first double value" gdb_scm_test_silent_cmd "gu (define g (make-value 2.5))" \ "create second double value" gdb_test "gu (print (value-add f g))" \ "= 3.75" "add two double values" gdb_test "gu (raw-print (value-add f g))" \ "= #" "verify type of double add result" gdb_test "gu (print (value-sub i j))" \ "= 3" "subtract two integer values" gdb_test "gu (print (value-sub f g))" \ "= -1.25" "subtract two double values" gdb_test "gu (print (value-mul i j))" \ "= 10" "multiply two integer values" gdb_test "gu (print (value-mul f g))" \ "= 3.125" "multiply two double values" gdb_test "gu (print (value-div i j))" \ "= 2" "divide two integer values" gdb_test "gu (print (value-div f g))" \ "= 0.5" "divide two double values" gdb_test "gu (print (value-rem i j))" \ "= 1" "take remainder of two integer values" gdb_test "gu (print (value-mod i j))" \ "= 1" "take modulus of two integer values" gdb_test "gu (print (value-pow i j))" \ "= 25" "integer value raised to the power of another integer value" gdb_test "gu (print (value-pow g j))" \ "= 6.25" "double value raised to the power of integer value" gdb_test "gu (print (value-neg i))" \ "= -5" "negated integer value" gdb_test "gu (print (value-pos i))" \ "= 5" "positive integer value" gdb_test "gu (print (value-neg f))" \ "= -1.25" "negated double value" gdb_test "gu (print (value-pos f))" \ "= 1.25" "positive double value" gdb_test "gu (print (value-abs (value-sub j i)))" \ "= 3" "absolute of integer value" gdb_test "gu (print (value-abs (value-sub f g)))" \ "= 1.25" "absolute of double value" gdb_test "gu (print (value-lsh i j))" \ "= 20" "left shift" gdb_test "gu (print (value-rsh i j))" \ "= 1" "right shift" gdb_test "gu (print (value-min i j))" \ "= 2" "min" gdb_test "gu (print (value-max i j))" \ "= 5" "max" gdb_test "gu (print (value-lognot i))" \ "= -6" "lognot" gdb_test "gu (print (value-logand i j))" \ "= 0" "logand i j" gdb_test "gu (print (value-logand 5 1))" \ "= 1" "logand 5 1" gdb_test "gu (print (value-logior i j))" \ "= 7" "logior i j" gdb_test "gu (print (value-logior 5 1))" \ "= 5" "logior 5 1" gdb_test "gu (print (value-logxor i j))" \ "= 7" "logxor i j" gdb_test "gu (print (value-logxor 5 1))" \ "= 4" "logxor 5 1" # Test mixed with Guile types. gdb_test "gu (print (value-sub i 1))" \ "= 4" "subtract integer value from guile integer" gdb_test "gu (raw-print (value-sub i 1))" \ "#" \ "verify type of mixed integer subtraction result" gdb_test "gu (print (value-add f 1.5))" \ "= 2.75" "add double value with guile float" gdb_test "gu (print (value-sub 1 i))" \ "= -4" "subtract guile integer from integer value" gdb_test "gu (print (value-add 1.5 f))" \ "= 2.75" "add guile float with double value" # Enum conversion test. gdb_test "print evalue" "= TWO" gdb_test "gu (print (value->integer (history-ref 0)))" "= 2" # Test pointer arithmetic. # First, obtain the pointers. gdb_test "print (void *) 2" ".*" "" gdb_test_no_output "gu (define a (history-ref 0))" gdb_test "print (void *) 5" ".*" "" gdb_test_no_output "gu (define b (history-ref 0))" gdb_test "gu (print (value-add a 5))" \ "= 0x7( <.*>)?" "add pointer value with guile integer" gdb_test "gu (print (value-sub b 2))" \ "= 0x3( <.*>)?" "subtract guile integer from pointer value" gdb_test "gu (print (value-sub b a))" \ "= 3" "subtract two pointer values" # Test some invalid operations. gdb_test_multiple "gu (print (value-add i '()))" "catch error in guile type conversion" { -re "Wrong type argument in position 2.*$gdb_prompt $" {pass "catch error in guile type conversion"} -re "= .*$gdb_prompt $" {fail "catch error in guile type conversion"} -re "$gdb_prompt $" {fail "catch error in guile type conversion"} } gdb_test_multiple "gu (print (value-add i \"foo\"))" "catch throw of GDB error" { -re "Argument to arithmetic operation not a number or boolean.*$gdb_prompt $" {pass "catch throw of GDB error"} -re "= .*$gdb_prompt $" {fail "catch throw of GDB error"} -re "$gdb_prompt $" {fail "catch throw of GDB error"} } } # Return the max signed int of size SIZE. # TCL 8.5 required here. Use lookup table instead? proc get_max_int { size } { return [expr "(1 << ($size - 1)) - 1"] } # Return the min signed int of size SIZE. # TCL 8.5 required here. Use lookup table instead? proc get_min_int { size } { return [expr "-(1 << ($size - 1))"] } # Return the max unsigned int of size SIZE. # TCL 8.5 required here. Use lookup table instead? proc get_max_uint { size } { return [expr "(1 << $size) - 1"] } # Helper routine for test_value_numeric_ranges. proc test_make_int_value { name size } { set max [get_max_int $size] set min [get_min_int $size] set umax [get_max_uint $size] gdb_test "gu (print (value-type (make-value $max)))" \ "= $name" "test make-value $name $size max" gdb_test "gu (print (value-type (make-value $min)))" \ "= $name" "test make-value $name $size min" gdb_test "gu (print (value-type (make-value $umax)))" \ "= unsigned $name" "test make-value unsigned $name $size umax" } # Helper routine for test_value_numeric_ranges. proc test_make_typed_int_value { size } { set name "int$size" set uname "uint$size" set max [get_max_int $size] set min [get_min_int $size] set umax [get_max_uint $size] gdb_test "gu (print (make-value $max #:type (arch-${name}-type arch)))" \ "= $max" "test make-value $name $size max" gdb_test "gu (print (make-value $min #:type (arch-${name}-type arch)))" \ "= $min" "test make-value $name $size min" gdb_test "gu (print (make-value $umax #:type (arch-${uname}-type arch)))" \ "= $umax" "test make-value $uname $size umax" gdb_test "gu (print (make-value (+ $max 1) #:type (arch-${name}-type arch)))" \ "ERROR.*Out of range.*" "test make-value $name $size max+1" gdb_test "gu (print (make-value (- $min 1) #:type (arch-${name}-type arch)))" \ "ERROR.*Out of range.*" "test make-value $name $size min-1" gdb_test "gu (print (make-value (+ $umax 1) #:type (arch-${uname}-type arch)))" \ "ERROR.*Out of range.*" "test make-value $uname $size umax+1" } proc test_value_numeric_ranges {} { # We can't assume anything about sizeof (int), etc. on the target. # Keep it simple for now, this will cover everything important for # the major targets. set int_size [get_sizeof "int" 0] set long_size [get_sizeof "long" 0] gdb_test_no_output "gu (define arch (current-arch))" if { $int_size == 4 } { test_make_int_value int 32 } if { $long_size == 8} { test_make_int_value long 64 } gdb_test "gu (print (value-type (make-value (ash 1 64))))" \ "ERROR:.*value not a number representable.*" \ "test make-value, number too large" foreach size { 8 16 32 } { test_make_typed_int_value $size } if { $long_size == 8 } { test_make_typed_int_value 64 } } proc test_value_boolean {} { # Note: Boolean values print as 0,1 because they are printed in the # current language (in this case C). gdb_test "gu (print (make-value #t))" "= 1" "create boolean true" gdb_test "gu (print (make-value #f))" "= 0" "create boolean false" gdb_test "gu (print (value-not (make-value #t)))" \ "= 0" "not true" gdb_test "gu (print (value-not (make-value #f)))" \ "= 1" "not false" gdb_test "gu (raw-print (make-value #t))" \ "#" "verify type of boolean" } proc test_value_compare {} { gdb_test "gu (print (value? 1 1))" \ "#f" "greater than, equal" gdb_test "gu (print (value>? 1 2))" \ "#f" "greater than, less" gdb_test "gu (print (value>? 2 1))" \ "#t" "greater than, greater" gdb_test "gu (print (value>=? 1 1))" \ "#t" "greater or equal, equal" gdb_test "gu (print (value>=? 1 2))" \ "#f" "greater or equal, less" gdb_test "gu (print (value>=? 2 1))" \ "#t" "greater or equal, greater" } if {[prepare_for_testing $testfile.exp $testfile $srcfile {debug c}]} { return } # Skip all tests if Guile scripting is not enabled. if { [skip_guile_tests] } { continue } if ![gdb_guile_runto_main] { return } test_value_numeric_ops test_value_numeric_ranges test_value_boolean test_value_compare