clang-tests-external/gdb/7.5/gdb/testsuite/gdb.pascal/floats.exp - llvm-archive - Git at Google

 # Copyright 2007-2012 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/>.

 load_lib "pascal.exp"

 standard_testfile .pas

 if {[gdb_compile_pascal "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable [list debug ]] != "" } {
     untested $testfile.exp
     return -1
 }

 clean_restart ${testfile}

 set bp_location1 [gdb_get_line_number "set breakpoint 1 here"]
 set bp_location2 [gdb_get_line_number "set breakpoint 2 here"]

 if { [gdb_breakpoint ${srcfile}:${bp_location1}] } {
     pass "setting breakpoint 1"
 }
 if { [gdb_breakpoint ${srcfile}:${bp_location2}] } {
     pass "setting breakpoint 2"
 }

 # Verify that "start" lands inside the right procedure.
 if { [gdb_start_cmd] < 0 } {
     untested start
     return -1
 }

 gdb_test "" ".* at .*${srcfile}.*" "start"

 gdb_test "cont" "Breakpoint .*:${bp_location1}.*" "Going to first breakpoint"
 gdb_test "print r" ".* = 0" "Print r before assigned to 1.25"

 gdb_test "next" "r := 1\\.25;" "Next to 'r := 1.25' line"
 gdb_test "next" "s := 2\\.2;" "Next to 's := 2.2' line"
 gdb_test "next" "t := -3\\.2;" "Next to 't := -3.2' line"
 gdb_test "next" "u := 78\\.3;" "Next to 'u := 78.3' line"
 gdb_test "next" "l := 1;" "Next to 'l := 1' line"
 gdb_test "next" "i := 1;" "Next to 'i := 1' line"

 # At that point,
 # r should be equal to 1.25
 gdb_test "print r" " = 1\\.25"
 # s should be equal to 2.2
 gdb_test "print s" " = 2\\.(199.*|2|200.*)"
 # t should be equal to -3.2
 gdb_test "print t" " = -3\\.(199.*|2|200.*)"
 # u should be equal to 78.3
 gdb_test "print u" " = 78\\.(3|300.*|299.*)"

 # Test addition
 gdb_test "print r + s" " = 3\\.4(499.*|5|500.*)"
 gdb_test "print r + t" " = -1\\.9(499.*|5|500.*)"

 #Test addition with float constants
 gdb_test "print r + 1.5" " = 2\\.7(499.*|5|500.*)"
 gdb_test "print r + 0.03" " = 1\\.2(799.*|8|800.*)"
 gdb_test "print r + (-0.2)" " = 1\\.0(499.*|5|500.*)"
 gdb_test "print r + 1.5E+3" " = 1501\\.2(499.*|5|500.*)"
 gdb_test "print r + 1.5E+2" " = 151\\.2(499.*|5|500.*)"
 gdb_test "print r + 1.5E+1" " = 16\\.2(499.*|5|500.*)"
 gdb_test "print r + 1.5E+0" " = 2\\.7(499.*|5|500.*)"
 gdb_test "print r + 1.5E-1" " = 1\\.(399.*|4|400.*)"
 gdb_test "print r + 1.5E-2" " = 1\\.26(499.*|5|500.*)"
 gdb_test "print r + 1.5E-3" " = 1\\.251(499.*|5|500.*)"

 # Test addition with integer variables
 gdb_test "print r + l" " = 2\\.2(499.*|5|500.*)"
 gdb_test "print l + t" " = -2\\.(199.*|2|200.*)"

 # Test addition with integer constants
 gdb_test "print r + 10" " = 11\\.2(499.*|5|500.*)"
 gdb_test "print r + 5" " = 6\\.2(499.*|5|500.*)"
 gdb_test "print r + 1" " = 2\\.2(499.*|5|500.*)"
 gdb_test "print r + 0" " = 1\\.2(499.*|5|500.*)"
 gdb_test "print r + (-1)" " = 0\\.2(499.*|5|500.*)"
 gdb_test "print r + (-5)" " = -3\\.7(499.*|5|500.*)"
 gdb_test "print r + (-10)" " = -8\\.7(499.*|5|500.*)"

 # Test substraction
 gdb_test "print r - s" " = -0\\.9(499.*|5|500.*)"
 gdb_test "print r - t" " = 4\\.4(499.*|5|500.*)"

 # Test unany minus
 gdb_test "print -r" " = -1\\.2(499.*|5|500.*)"
 gdb_test "print (-r)" " = -1\\.2(499.*|5|500.*)"
 gdb_test "print -(r)" " = -1.2(499.*|5|500.*)"
 gdb_test "print -(r + s)" " = -3\\.4(499.*|5|500.*)"

 # Test multiplication
 gdb_test "print 2 * r" " = 2\\.(499.*|5|500.*)"
 gdb_test "print 2.0 * r" " = 2\\.(499.*|5|500.*)"
 gdb_test "print 1000*r" " = 12(49\\.99.*|50|50\\.00.*)"

 #Test division
 gdb_test "print r / 2" " = 0\\.62(499.*|5|500.*)"
 gdb_test "print 35 / 2" " = 17\\.(499.*|5|500.*)"

 # 'set r' does not work, as there are set sub-commands starting with 'r'
 # Thus we need to use 'set var r'
 gdb_test "set var r := 2.56" " := 2\\.56"
 gdb_test "print r" " = 2\\.5(599.*|6|600.*)" "Testing new r value"

 gdb_test "cont" \
 	 "Breakpoint .*:${bp_location2}.*" \
 	 "Going to second breakpoint"
 gdb_test "next" "r := cos\\(u\\);" "Advance to 'r := cos(u)' line"
 gdb_test "print u" " = 3\\.14159.*" "Test pi value"
 gdb_test "next" "s := sin\\(u\\);" "Advance to 's := sin(u)' line"
 gdb_test "print r" " = -1" "Test cos(pi) is equal to -1"
 gdb_test "next" "" "Go past 's := sin(u)' line"

 set msg "Test sin(pi) is equal to 0"

 gdb_test_multiple "print s" $msg {
 	-re ".* = (0|-?\[0-9\]\\.\[0-9\]*\[eE\](-?\[0-9\]*))\[\r\n\]+$gdb_prompt $" {
 	  set value "$expect_out(1,string)"
 	  verbose "value is $value" 1
 	  if [info exists expect_out(2,string)] {
 	    set expo $expect_out(2,string)
 	    verbose "expo found: $expo" 1
 	  } else {
 	    set expo "0"
 	    regsub  ".*\[eE\]" "$value" "" expo;
 	  }
 	  regsub  "^-" "$expo" "" mexpo;
 	  verbose "expo is $expo" 1
 	  verbose "mexpo is $mexpo" 1
 	  if { $value == 0 } {
 	    pass $msg
 	  } elseif {$mexpo > 8} {
 	    pass "$msg '$value' is close to zero"
 	  } else {
 	    fail "$msg '$value' too large"
 	  }
 	  verbose "Still here" 1
 	}
 }
	# Copyright 2007-2012 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/>.

	load_lib "pascal.exp"

	standard_testfile .pas

	if {[gdb_compile_pascal "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable [list debug ]] != "" } {
	untested $testfile.exp
	return -1
	}

	clean_restart ${testfile}

	set bp_location1 [gdb_get_line_number "set breakpoint 1 here"]
	set bp_location2 [gdb_get_line_number "set breakpoint 2 here"]

	if { [gdb_breakpoint ${srcfile}:${bp_location1}] } {
	pass "setting breakpoint 1"
	}
	if { [gdb_breakpoint ${srcfile}:${bp_location2}] } {
	pass "setting breakpoint 2"
	}

	# Verify that "start" lands inside the right procedure.
	if { [gdb_start_cmd] < 0 } {
	untested start
	return -1
	}

	gdb_test "" ".* at .${srcfile}." "start"

	gdb_test "cont" "Breakpoint .:${bp_location1}." "Going to first breakpoint"
	gdb_test "print r" ".* = 0" "Print r before assigned to 1.25"

	gdb_test "next" "r := 1\\.25;" "Next to 'r := 1.25' line"
	gdb_test "next" "s := 2\\.2;" "Next to 's := 2.2' line"
	gdb_test "next" "t := -3\\.2;" "Next to 't := -3.2' line"
	gdb_test "next" "u := 78\\.3;" "Next to 'u := 78.3' line"
	gdb_test "next" "l := 1;" "Next to 'l := 1' line"
	gdb_test "next" "i := 1;" "Next to 'i := 1' line"

	# At that point,
	# r should be equal to 1.25
	gdb_test "print r" " = 1\\.25"
	# s should be equal to 2.2
	gdb_test "print s" " = 2\\.(199.\|2\|200.)"
	# t should be equal to -3.2
	gdb_test "print t" " = -3\\.(199.\|2\|200.)"
	# u should be equal to 78.3
	gdb_test "print u" " = 78\\.(3\|300.\|299.)"

	# Test addition
	gdb_test "print r + s" " = 3\\.4(499.\|5\|500.)"
	gdb_test "print r + t" " = -1\\.9(499.\|5\|500.)"

	#Test addition with float constants
	gdb_test "print r + 1.5" " = 2\\.7(499.\|5\|500.)"
	gdb_test "print r + 0.03" " = 1\\.2(799.\|8\|800.)"
	gdb_test "print r + (-0.2)" " = 1\\.0(499.\|5\|500.)"
	gdb_test "print r + 1.5E+3" " = 1501\\.2(499.\|5\|500.)"
	gdb_test "print r + 1.5E+2" " = 151\\.2(499.\|5\|500.)"
	gdb_test "print r + 1.5E+1" " = 16\\.2(499.\|5\|500.)"
	gdb_test "print r + 1.5E+0" " = 2\\.7(499.\|5\|500.)"
	gdb_test "print r + 1.5E-1" " = 1\\.(399.\|4\|400.)"
	gdb_test "print r + 1.5E-2" " = 1\\.26(499.\|5\|500.)"
	gdb_test "print r + 1.5E-3" " = 1\\.251(499.\|5\|500.)"

	# Test addition with integer variables
	gdb_test "print r + l" " = 2\\.2(499.\|5\|500.)"
	gdb_test "print l + t" " = -2\\.(199.\|2\|200.)"

	# Test addition with integer constants
	gdb_test "print r + 10" " = 11\\.2(499.\|5\|500.)"
	gdb_test "print r + 5" " = 6\\.2(499.\|5\|500.)"
	gdb_test "print r + 1" " = 2\\.2(499.\|5\|500.)"
	gdb_test "print r + 0" " = 1\\.2(499.\|5\|500.)"
	gdb_test "print r + (-1)" " = 0\\.2(499.\|5\|500.)"
	gdb_test "print r + (-5)" " = -3\\.7(499.\|5\|500.)"
	gdb_test "print r + (-10)" " = -8\\.7(499.\|5\|500.)"

	# Test substraction
	gdb_test "print r - s" " = -0\\.9(499.\|5\|500.)"
	gdb_test "print r - t" " = 4\\.4(499.\|5\|500.)"

	# Test unany minus
	gdb_test "print -r" " = -1\\.2(499.\|5\|500.)"
	gdb_test "print (-r)" " = -1\\.2(499.\|5\|500.)"
	gdb_test "print -(r)" " = -1.2(499.\|5\|500.)"
	gdb_test "print -(r + s)" " = -3\\.4(499.\|5\|500.)"

	# Test multiplication
	gdb_test "print 2 * r" " = 2\\.(499.\|5\|500.)"
	gdb_test "print 2.0 * r" " = 2\\.(499.\|5\|500.)"
	gdb_test "print 1000r" " = 12(49\\.99.\|50\|50\\.00.*)"

	#Test division
	gdb_test "print r / 2" " = 0\\.62(499.\|5\|500.)"
	gdb_test "print 35 / 2" " = 17\\.(499.\|5\|500.)"

	# 'set r' does not work, as there are set sub-commands starting with 'r'
	# Thus we need to use 'set var r'
	gdb_test "set var r := 2.56" " := 2\\.56"
	gdb_test "print r" " = 2\\.5(599.\|6\|600.)" "Testing new r value"

	gdb_test "cont" \
	"Breakpoint .:${bp_location2}." \
	"Going to second breakpoint"
	gdb_test "next" "r := cos\\(u\\);" "Advance to 'r := cos(u)' line"
	gdb_test "print u" " = 3\\.14159.*" "Test pi value"
	gdb_test "next" "s := sin\\(u\\);" "Advance to 's := sin(u)' line"
	gdb_test "print r" " = -1" "Test cos(pi) is equal to -1"
	gdb_test "next" "" "Go past 's := sin(u)' line"

	set msg "Test sin(pi) is equal to 0"

	gdb_test_multiple "print s" $msg {
	-re ".* = (0\|-?\[0-9\]\\.\[0-9\]\[eE\](-?\[0-9\]))\[\r\n\]+$gdb_prompt $" {
	set value "$expect_out(1,string)"
	verbose "value is $value" 1
	if [info exists expect_out(2,string)] {
	set expo $expect_out(2,string)
	verbose "expo found: $expo" 1
	} else {
	set expo "0"
	regsub ".*\[eE\]" "$value" "" expo;
	}
	regsub "^-" "$expo" "" mexpo;
	verbose "expo is $expo" 1
	verbose "mexpo is $mexpo" 1
	if { $value == 0 } {
	pass $msg
	} elseif {$mexpo > 8} {
	pass "$msg '$value' is close to zero"
	} else {
	fail "$msg '$value' too large"
	}
	verbose "Still here" 1
	}
	}