#pragma ident "%Z%%M% %I% %E% SMI"
# 2001 September 15
#
# The author disclaims copyright to this source code. In place of
# a legal notice, here is a blessing:
#
# May you do good and not evil.
# May you find forgiveness for yourself and forgive others.
# May you share freely, never taking more than you give.
#
#***********************************************************************
# This file implements regression tests for SQLite library. The
# focus of this file is testing the sqlite_*_printf() interface.
#
# $Id: printf.test,v 1.8 2004/02/21 19:41:05 drh Exp $
set testdir [file dirname $argv0]
source $testdir/tester.tcl
set n 1
foreach v {1 2 5 10 99 100 1000000 999999999 0 -1 -2 -5 -10 -99 -100 -9999999} {
do_test printf-1.$n.1 [subst {
sqlite_mprintf_int {Three integers: %d %x %o} $v $v $v
}] [format {Three integers: %d %x %o} $v $v $v]
do_test printf-1.$n.2 [subst {
sqlite_mprintf_int {Three integers: (%6d) (%6x) (%6o)} $v $v $v
}] [format {Three integers: (%6d) (%6x) (%6o)} $v $v $v]
do_test printf-1.$n.3 [subst {
sqlite_mprintf_int {Three integers: (%-6d) (%-6x) (%-6o)} $v $v $v
}] [format {Three integers: (%-6d) (%-6x) (%-6o)} $v $v $v]
do_test printf-1.$n.4 [subst {
sqlite_mprintf_int {Three integers: (%+6d) (%+6x) (%+6o)} $v $v $v
}] [format {Three integers: (%+6d) (%+6x) (%+6o)} $v $v $v]
do_test printf-1.$n.5 [subst {
sqlite_mprintf_int {Three integers: (%06d) (%06x) (%06o)} $v $v $v
}] [format {Three integers: (%06d) (%06x) (%06o)} $v $v $v]
do_test printf-1.$n.6 [subst {
sqlite_mprintf_int {Three integers: (% 6d) (% 6x) (% 6o)} $v $v $v
}] [format {Three integers: (% 6d) (% 6x) (% 6o)} $v $v $v]
incr n
}
if {$::tcl_platform(platform)!="windows"} {
set m 1
foreach {a b} {1 1 5 5 10 10 10 5} {
set n 1
foreach x {0.001 1.0e-20 1.0 0.0 100.0 9.99999 -0.00543 -1.0 -99.99999} {
do_test printf-2.$m.$n.1 [subst {
sqlite_mprintf_double {A double: %*.*f} $a $b $x
}] [format {A double: %*.*f} $a $b $x]
do_test printf-2.$m.$n.2 [subst {
sqlite_mprintf_double {A double: %*.*e} $a $b $x
}] [format {A double: %*.*e} $a $b $x]
do_test printf-2.$m.$n.3 [subst {
sqlite_mprintf_double {A double: %*.*g} $a $b $x
}] [format {A double: %*.*g} $a $b $x]
do_test printf-2.$m.$n.4 [subst {
sqlite_mprintf_double {A double: %d %d %g} $a $b $x
}] [format {A double: %d %d %g} $a $b $x]
do_test printf-2.$m.$n.5 [subst {
sqlite_mprintf_double {A double: %d %d %#g} $a $b $x
}] [format {A double: %d %d %#g} $a $b $x]
incr n
}
incr m
}
}
do_test printf-3.1 {
sqlite_mprintf_str {A String: (%*.*s)} 10 10 {This is the string}
} [format {A String: (%*.*s)} 10 10 {This is the string}]
do_test printf-3.2 {
sqlite_mprintf_str {A String: (%*.*s)} 10 5 {This is the string}
} [format {A String: (%*.*s)} 10 5 {This is the string}]
do_test printf-3.3 {
sqlite_mprintf_str {A String: (%*.*s)} -10 5 {This is the string}
} [format {A String: (%*.*s)} -10 5 {This is the string}]
do_test printf-3.4 {
sqlite_mprintf_str {%d %d A String: (%s)} 1 2 {This is the string}
} [format {%d %d A String: (%s)} 1 2 {This is the string}]
do_test printf-3.5 {
sqlite_mprintf_str {%d %d A String: (%30s)} 1 2 {This is the string}
} [format {%d %d A String: (%30s)} 1 2 {This is the string}]
do_test printf-3.6 {
sqlite_mprintf_str {%d %d A String: (%-30s)} 1 2 {This is the string}
} [format {%d %d A String: (%-30s)} 1 2 {This is the string}]
do_test printf-4.1 {
sqlite_mprintf_str {%d %d A quoted string: '%q'} 1 2 {Hi Y'all}
} {1 2 A quoted string: 'Hi Y''all'}
do_test printf-4.2 {
sqlite_mprintf_str {%d %d A NULL pointer in %%q: '%q'} 1 2
} {1 2 A NULL pointer in %q: '(NULL)'}
do_test printf-4.3 {
sqlite_mprintf_str {%d %d A quoted string: %Q} 1 2 {Hi Y'all}
} {1 2 A quoted string: 'Hi Y''all'}
do_test printf-4.4 {
sqlite_mprintf_str {%d %d A NULL pointer in %%Q: %Q} 1 2
} {1 2 A NULL pointer in %Q: NULL}
do_test printf-5.1 {
set x [sqlite_mprintf_str {%d %d %100000s} 0 0 {Hello}]
string length $x
} {994}
do_test printf-5.2 {
sqlite_mprintf_str {%d %d (%-10.10s) %} -9 -10 {HelloHelloHello}
} {-9 -10 (HelloHello) %}
do_test printf-6.1 {
sqlite_mprintf_z_test , one two three four five six
} {,one,two,three,four,five,six}
do_test printf-7.1 {
sqlite_mprintf_scaled {A double: %g} 1.0e307 1.0
} {A double: 1e+307}
do_test printf-7.2 {
sqlite_mprintf_scaled {A double: %g} 1.0e307 10.0
} {A double: 1e+308}
do_test printf-7.3 {
sqlite_mprintf_scaled {A double: %g} 1.0e307 100.0
} {A double: NaN}
finish_test