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integer.t
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integer.t
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#!./parrot
# Copyright (C) 2001-2011, Parrot Foundation.
=head1 NAME
t/pmc/integer.t - Integer basic type
=head1 SYNOPSIS
% prove t/pmc/integer.t
=head1 DESCRIPTION
Tests the Integer PMC.
=cut
.const string MAXINT = 'MAXINT'
.const string MININT = 'MININT'
.const string NO_SYSINFO = 'This test requires sysinfo'
.const num PRECISION = 0.000001
.sub 'test' :main
.include 'test_more.pir'
.include 'fp_equality.pasm'
get_max_min()
plan(142)
test_init()
test_basic_math()
test_truthiness_and_definedness()
test_set_string_native()
test_isa()
test_interface()
test_ne()
test_gt()
test_ge()
test_istrue_isfalse()
test_if_unless()
test_add()
test_sub()
test_mul()
test_div()
test_arithmetic()
test_mod()
test_neg()
test_get_as_base()
test_get_as_base10()
test_get_as_base_various()
test_get_as_base_bounds_check()
test_cmp_subclass()
test_cmp_RT59336()
test_cmp_num()
$I0 = has_bigint()
unless $I0 goto no_bigint
test_autopromotion_to_BigInt()
test_add_BigInt()
test_sub_BigInt()
test_mul_BigInt()
test_div_BigInt()
test_mod_BigInt()
test_neg_BigInt()
goto done_bigint_tests
no_bigint:
skip_n_bigint_tests(30)
done_bigint_tests:
.end
# Get INTVAL max and min values from sysinfo only if the sys_ops lib is
# available and leaving them as zero otherwise (that happens during corestes,
# for example).
# The test that needs the values are skipped based on this.
.sub get_max_min
.local string code
code = <<'CODE'
.loadlib 'sys_ops'
.include 'sysinfo.pasm'
.sub aux_get_max
.local int m
.local pmc pm
m = sysinfo .SYSINFO_PARROT_INTMAX
pm = box m
set_hll_global 'MAXINT', pm
m = sysinfo .SYSINFO_PARROT_INTMIN
pm = box m
set_hll_global 'MININT', pm
.end
CODE
.local pmc m
m = box 0
set_hll_global MAXINT, m
m = box 0
set_hll_global MININT, m
.local pmc pircomp
push_eh catch
pircomp = compreg 'PIR'
if null pircomp goto done
.local pmc getit
getit = pircomp(code)
getit()
goto done
catch:
.local pmc ex
.get_results(ex)
finalize ex
done:
pop_eh
.end
.sub has_bigint
push_eh _dont_have_bigint
$P0 = new ['BigInt']
pop_eh
.return(1)
_dont_have_bigint:
pop_eh
.return(0)
.end
.sub skip_n_bigint_tests
.param int n
loop_top:
if n == 0 goto _done
skip("No BigInt library")
n = n - 1
goto loop_top
_done:
.end
.sub test_init
.local pmc i1, i2
i1 = new ['Integer']
is(i1, 0, "Default value of Integer is 0")
i1 = 42
i2 = new ['Integer'], i1
is(i2, 42, "Initialize with argument set correct value")
.end
.sub test_get_as_base_bounds_check
throws_substring(<<'CODE', 'base out of bounds', 'get_as_base lower bound check')
.sub main :main
$P0 = new ['Integer']
$P0 = 42
$S0 = $P0.'get_as_base'(1)
say $S0
.end
CODE
throws_substring(<<'CODE', 'base out of bounds', 'get_as_base upper bound check')
.sub main :main
$P0 = new ['Integer']
$P0 = 42
$S0 = $P0.'get_as_base'(37)
say $S0
.end
CODE
.end
.sub test_basic_math
.local pmc int_1
int_1 = new ['Integer']
is(int_1, 0, 'Integer PMC creation')
int_1 = 1
is(int_1, 1, '... set')
int_1 += 777777
int_1 -= 777776
is(int_1, 2, '... add/sub')
int_1 *= -333333
int_1 /= -222222
is(int_1, 3, '... mul/div')
inc int_1
inc int_1
dec int_1
is(int_1, 4, '... inc/dec')
neg int_1
dec int_1
neg int_1
is(int_1, 5, '... neg')
$P9 = get_hll_global MININT
$I0 = $P9
unless $I0 goto skip
throws_substring(<<'CODE', 'Integer overflow', 'mul integer overflow')
.sub main :main
.include 'errors.pasm'
errorson .PARROT_ERRORS_OVERFLOW_FLAG
.include 'sysinfo.pasm'
$I0 = sysinfo .SYSINFO_PARROT_INTMAX
$P0 = new ['Integer']
$P0 = $I0
$P0 *= 2
.end
CODE
goto more
skip:
skip(1, NO_SYSINFO)
more:
int_1 = new ['Integer']
int_1 = -57494
int_1 = abs int_1
is(int_1, 57494, 'absolute value, assignment')
int_1 = new ['Integer']
int_1 = 6
abs int_1
is(int_1, 6, 'absolute value, in-place')
.end
.sub test_autopromotion_to_BigInt
push_eh _dont_have_bigint_library
.local pmc bigint_1
.local pmc int_1
int_1 = new ['Integer']
bigint_1 = new ['BigInt']
$P9 = get_hll_global MININT
$I0 = $P9
unless $I0 goto skip
int_1 = $I0
bigint_1 = int_1 - 1
dec int_1
$P0 = typeof int_1
is(int_1, bigint_1, 'dec integer overflow promotion')
is($P0, 'BigInt', 'dec integer overflow type check')
goto _have_bigint_library
_dont_have_bigint_library:
pop_eh
# TODO: What should we do here?
ok(1, "no bigint library")
ok(1, "no bigint library")
_have_bigint_library:
goto end
skip:
skip(2, NO_SYSINFO)
end:
.end
.sub test_truthiness_and_definedness
.local pmc int_1
int_1 = new ['Integer']
nok(int_1, "A newly created Integer is not true")
.local int is_defined
is_defined = defined int_1
nok(int_1, "A newly created Integer is not defined")
int_1 = -999999999
ok(int_1, "-999999999 is true")
is_defined = defined int_1
ok(int_1, "-999999999 is defined")
.end
.sub test_set_string_native
.local pmc pmc1
pmc1 = new ['Integer']
pmc1 = "-123456789"
is(pmc1, -123456789)
.end
.sub test_isa
.local pmc pmc1
pmc1 = new ['Integer']
.local int pmc1_is_a
pmc1_is_a = isa pmc1, "Integer"
isa_ok(pmc1, "Integer")
.end
.sub test_interface
.local pmc pmc1
pmc1 = new ['Integer']
.local int bool1
does bool1, pmc1, "scalar"
is(bool1,1)
does bool1, pmc1, "integer"
is(bool1,1)
does bool1, pmc1, "no_interface"
is(bool1,0)
.end
.sub test_ne
.local pmc pmc1
pmc1 = new ['Integer']
.local int int1
pmc1 = 10
int1 = 20
ne pmc1, int1, OK1
ok(0)
goto next_test
OK1:
ok(1)
next_test:
int1 = 10
ne pmc1, int1, BAD2
branch OK2
BAD2:
ok(0)
goto fin
OK2:
ok(1)
fin:
.end
.sub test_gt
.local pmc pmc1
pmc1 = new ['Integer']
.local int int1
pmc1 = 10
int1 = 5
gt pmc1, int1, OK1
ok(0)
goto next_test1
OK1:
ok(1)
next_test1:
int1 = 10
gt pmc1, int1, BAD2
branch OK2
BAD2:
ok(0)
OK2:
ok(1)
next_test2:
int1 = 20
gt pmc1, int1, BAD3
branch OK3
BAD3:
ok(0)
goto fin
OK3:
ok(1)
fin:
.end
.sub test_ge
.local pmc pmc1
pmc1 = new ['Integer']
.local int int1
pmc1 = 10
int1 = 5
ge pmc1, int1, OK1
ok(0)
goto next_test1
OK1:
ok(1)
int1 = 10
next_test1:
ge pmc1, int1, OK2
ok(0)
goto next_test2
OK2:
ok(1)
int1 = 20
next_test2:
ge pmc1, int1, BAD3
branch OK3
BAD3:
ok(0)
goto fin
OK3:
ok(1)
fin:
.end
.sub test_istrue_isfalse
.local pmc pmc1
pmc1 = new ['Integer']
.local int int1
pmc1 = 10
istrue int1, pmc1
is(1,int1)
isfalse int1, pmc1
is(0,int1)
pmc1 = 0
istrue int1, pmc1
is(0,int1)
isfalse int1, pmc1
is(1,int1)
.end
.sub test_if_unless
new $P0, ['Integer']
set $P0, 10
if $P0, OK1
ok(0)
goto test1
OK1:
ok(1)
test1:
unless $P0, BAD2
branch OK2
BAD2:
ok(0)
goto test2
OK2:
ok(1)
set $P0, 0
test2:
if $P0, BAD3
branch OK3
BAD3:
ok(0)
goto test3
OK3:
ok(1)
test3:
unless $P0, OK4
ok(0)
goto fin
OK4:
ok(1)
fin:
.end
.sub test_add_BigInt
$P9 = get_hll_global MAXINT
$I0 = $P9
unless $I0 goto skip
new $P0, ['Integer']
new $P1, ['BigInt']
set $P0, $I0
set $P1, $I0
add $P0, $P0, 1
add $P1, $P1, 1
typeof $P2, $P0
is($P0, $P1, 'add integer overflow promotion')
is($P2, 'BigInt', 'add integer overflow type check')
new $P0, ['Integer']
set $P0, $I0
add $P0, 1
typeof $P2, $P0
is($P0, $P1, 'i_add integer overflow promotion')
is($P2, 'BigInt', 'i_add integer overflow type check')
goto end
skip:
skip(4, NO_SYSINFO)
end:
.end
.sub test_add
new $P0, ['Integer']
set $P0, 5
new $P1, ['Integer']
set $P1, 10
new $P2, ['Integer']
add $P2, $P0, $P1
set $S0, $P2
is($S0,15)
set $P0, "20"
set $P1, "30"
add $P2, $P1, $P0
set $S0, $P2
is($S0,50)
new $P0, ['Integer']
new $P1, ['Complex']
set $P0, 20
set $P1, 4
add $P0, $P1
is($P0, "4+0i", 'add complex number')
new $P0, ['Integer']
new $P1, ['Float']
set $P0, 31
set $P1, 20.1
add $P0, $P1
is($P0, 51, 'add DEFAULT')
new $P0, ['Integer']
set $P0, 2
add $P0, 3.14159
add $P0, 5.75
is($P0, 10, 'add_float')
.end
.sub test_sub_BigInt
$P0 = new ['BigInt']
$P0 = 424124
$P1 = new ['Integer']
$P1 = 424125
sub $P1, $P1, $P0
is($P1, 1, 'BigInt sub (no exception)')
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P9 = get_hll_global MININT
$I0 = $P9
unless $I0 goto skip
$P0 = $I0
$P1 = $I0
sub $P0, $P0, 1
sub $P1, $P1, 1
typeof $P2, $P0
is($P0, $P1, 'subtract overflow promotion')
is($P2, 'BigInt', 'subtract overflow type check')
$P0 = new ['Integer']
$P0 = $I0
sub $P0, 1
typeof $P2, $P0
is($P0, $P1, 'i_subtract_int overflow promotion')
is($P2, 'BigInt', 'i_subtract_int overflow type check')
$P0 = new ['Integer']
$P2 = new ['Integer']
$P0 = $I0
$P2 = 1
sub $P0, $P2
typeof $P3, $P0
is($P0, $P1, 'i_subtract overflow promotion')
is($P3, 'BigInt', 'i_subtract overflow type check')
goto end
skip:
skip(6, NO_SYSINFO)
end:
.end
.sub test_sub
$P0 = new ['Float']
$P0 = 3.1
$P1 = new ['Integer']
$P1 = 10
sub $P1, $P1, $P0
is($P1, 6.9, 'DEFAULT sub', PRECISION)
$P0 = new ['Integer']
$P0 = 5
sub $P0, 4.5
is($P0, .5, 'i_subtract_float')
$P0 = new ['Integer']
$P1 = new ['Complex']
$P0 = 0
$P1 = "4+2i"
sub $P0, $P1
is($P0, "-4-2i", 'subtract Complex number')
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 5
$P1 = 4.5
sub $P0, $P1
is($P0, .5, 'subtract DEFAULT multimethod')
.end
.sub test_mul
$P0 = new ['Integer']
$P1 = new ['String']
$P0 = 1
$P1 = "256"
mul $P0, $P0, $P1
is($P0, 256, 'multiply Integer PMC by String PMC')
$P1 = new ['Float']
$P0 = 2
$P1 = 3.14
mul $P0, $P0, $P1
is($P0, 6, 'multiply Integer PMC by Float PMC')
$P1 = new ['Integer']
$P1 = 4
mul $P0, $P1
is($P0, 24, 'i_multiply Integer PMC by Integer PMC')
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 2
$P1 = 3.5
mul $P0, $P1
is($P0, 7, 'i_multiply Integer PMC by DEFAULT')
$P0 = new ['Integer']
$P0 = 2
mul $P0, 5.5
is($P0, 11, 'i_multiply_float')
.end
.sub test_mul_BigInt
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P2 = new ['Integer']
$P0 = 24
$P1 = 2
$P2 = 48
mul $P0, $P1
$I0 = iseq $P0, $P2
ok($I0, 'i_multiply Integer PMC by BigInt PMC')
$P0 = new ['Integer']
$P9 = get_hll_global MAXINT
$I0 = $P9
unless $I0 goto skip
$P0 = $I0
$P1 = $I0
mul $P0, 2
mul $P1, 2
$P2 = typeof $P0
is($P0, $P1, 'i_multiply_int overflow promotion')
is($P2, 'BigInt', 'i_multiple_int overflow type check')
goto end
skip:
skip(2, NO_SYSINFO)
end:
.end
.sub test_div_BigInt
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 50
$P1 = 25
$P2 = div $P0, $P1
$P3 = typeof $P2
is($P2, 2, 'divide overflow promotion')
is($P3, 'BigInt', 'divide overflow type check')
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 50
$P1 = 25
div $P0, $P1
$P2 = typeof $P0
is($P0, 2, 'i_divide overflow promotion')
is($P2, 'BigInt', 'i_divide overflow type check')
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 10
$P1 = 7
$P0 = fdiv $P0, $P1
$P2 = typeof $P0
is($P0, 1, 'floor_divide overflow promotion')
is($P2, 'BigInt', 'floor_divide overflow type check')
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 20
$P1 = 9
fdiv $P0, $P1
$P2 = typeof $P0
is($P0, 2, 'i_floor_divide overflow promotion')
is($P2, 'BigInt', 'i_floor_divide overflow type check')
.end
.sub test_div
throws_substring(<<'CODE', 'float division by zero', 'divide by 0 (Float PMC)')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 50
$P1 = 0
$P2 = div $P0, $P1
say $P2
.end
CODE
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 50
$P1 = .5
div $P0, $P1
is($P0, 100, 'i_divide DEFAULT multi')
throws_substring(<<'CODE', 'float division by zero', 'i_divide by 0 (Float PMC)')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 50
$P1 = 0
div $P0, $P1
say $P0
.end
CODE
throws_substring(<<'CODE', 'float division by zero', 'floor_divide by 0 (Float PMC)')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 50
$P1 = 0
$P0 = fdiv $P0, $P1
say $P0
.end
CODE
throws_substring(<<'CODE', 'float division by zero', 'floor_divide by 0 (FLOATVAL)')
.sub main :main
$P0 = new ['Integer']
$P0 = 50
$P0 = fdiv $P0, 0.0
say $P0
.end
CODE
$P0 = new ['Integer']
$P0 = 22
$P0 = fdiv $P0, 7
is($P0, 3, 'floor_divide INTVAL')
throws_substring(<<'CODE', 'float division by zero', 'floor_divide by 0 (INTVAL)')
.sub main :main
$P0 = new ['Integer']
$P0 = 50
$P0 = fdiv $P0, 0
say $P0
.end
CODE
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 20
$P1 = 2.3
fdiv $P0, $P1
is($P0, 8, 'i_floor_divide DEFAULT multi')
throws_substring(<<'CODE', 'float division by zero', 'i_floor_divide by 0 (DEFAULT)')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 50
$P1 = 0
fdiv $P0, $P1
say $P0
.end
CODE
$P0 = 20
fdiv $P0, 7
is($P0, 2, 'i_floor_divide INTVAL multi')
throws_substring(<<'CODE', 'float division by zero', 'i_floor_divide by 0 INTVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 50
fdiv $P0, 0
say $P0
.end
CODE
$P0 = 20
fdiv $P0, 2.3
is($P0, 8, 'i_floor_divide FLOATVAL multi')
throws_substring(<<'CODE', 'float division by zero', 'i_floor_divide by 0 FLOATVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 50
fdiv $P0, 0.0
say $P0
.end
CODE
.end
.sub test_arithmetic
$P0 = new ['Integer']
$P1 = new ['Integer']
set $P0, 6
set $P1, 2
add $P2, $P0, $P1
is($P2,8)
$P2 = add $P0, $P1
is($P2,8)
sub $P2, $P0, $P1
is($P2,4)
mul $P2, $P0, $P1
is($P2,12)
div $P2, $P0, $P1
is($P2,3)
mod $P2, $P0, $P1
is($P2,0)
.end
.sub test_mod_BigInt
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 7
$P1 = 5
$P0 = mod $P0, $P1
$P2 = typeof $P0
is($P0, 2, 'modulus overflow promotion')
is($P2, 'BigInt', 'modulus overflow type check')
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P0 = 7
$P1 = 5
mod $P0, $P1
$P2 = typeof $P0
is($P0, 2, 'i_modulus overflow promotion')
is($P2, 'BigInt', 'i_modulus overflow type check')
.end
.sub test_mod
throws_substring(<<'CODE', 'int modulus by zero', 'modulus by 0 DEFAULT multi')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 7
$P1 = 0
$P0 = mod $P0, $P1
say $P0
.end
CODE
$P0 = new ['Integer']
$P0 = 7
$P0 = mod $P0, 4
is($P0, 3, 'modulus INTVAL multi')
throws_substring(<<'CODE', 'int modulus by zero', 'modulus by 0 INTVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 7
$P0 = mod $P0, 0
say $P0
.end
CODE
throws_substring(<<'CODE', 'int modulus by zero', 'modulus by 0 FLOATVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 7
$P0 = mod $P0, 0.0
say $P0
.end
CODE
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 7
$P1 = 5
mod $P0, $P1
is($P0, 2, 'i_modulus DEFAULT multi')
throws_substring(<<'CODE', 'int modulus by zero', 'i_modulus by 0 DEFAULT multi')
.sub main :main
$P0 = new ['Integer']
$P1 = new ['Float']
$P0 = 7
$P1 = 0
mod $P0, $P1
say $P0
.end
CODE
$P0 = new ['Integer']
$P0 = 7
mod $P0, 4
is($P0, 3, 'i_modulus INTVAL multi')
$P0 = 7
mod $P0, 3.0
is($P0, 1, 'i_modulus FLOATVAL multi')
throws_substring(<<'CODE', 'int modulus by zero', 'i_modulus by 0 INTVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 7
mod $P0, 0
say $P0
.end
CODE
throws_substring(<<'CODE', 'int modulus by zero', 'i_modulus by 0 FLOATVAL multi')
.sub main :main
$P0 = new ['Integer']
$P0 = 7
mod $P0, 0.0
say $P0
.end
CODE
.end
.sub test_neg_BigInt
$P0 = new ['Integer']
$P1 = new ['BigInt']
$P9 = get_hll_global MININT
$I0 = $P9
unless $I0 goto skip
$P0 = $I0
$P1 = $I0
neg $P1
$P0 = neg $P0
$P2 = typeof $P0
is($P0, $P1, 'neg integer overflow promotion')
is($P2, 'BigInt', 'neg integer overflow type check')
goto end
skip:
skip(2, NO_SYSINFO)
end:
.end
.sub test_neg
$P0 = new ['Integer']
$P0 = -3
neg $P0
is($P0, 3, 'i_neg')
.end
.sub test_get_as_base
$P0 = new ['Integer']
$P0 = 42
$I0 = can $P0, 'get_as_base'
ok($I0,'Integers can get_as_base')
.end
.sub test_get_as_base10
$P0 = new ['Integer']
$P0 = 42
$S0 = $P0.'get_as_base'(10)
is($S0,42)
.end
.sub test_get_as_base_various
$P0 = new ['Integer']
$P0 = 42
$S0 = $P0.'get_as_base'(2)
is($S0,101010)
$S0 = $P0.'get_as_base'(3)
is($S0,1120)
$S0 = $P0.'get_as_base'(5)
is($S0,132)
$S0 = $P0.'get_as_base'(7)
is($S0,60)
$S0 = $P0.'get_as_base'(11)
is($S0,39)
$S0 = $P0.'get_as_base'(13)
is($S0,33)
$S0 = $P0.'get_as_base'(17)
is($S0,28)
$S0 = $P0.'get_as_base'(19)
is($S0,24)
$S0 = $P0.'get_as_base'(23)
is($S0,'1j')
$S0 = $P0.'get_as_base'(29)
is($S0,'1d')
$S0 = $P0.'get_as_base'(31)
is($S0,'1b')
.end
.sub test_cmp_subclass
$P0 = subclass 'Integer', 'Int'
$P1 = new ['Int']
$P1 = 1
$P2 = new ['Int']
$P2 = 2
$I0 = cmp $P1, $P2
is($I0,-1)
$I0 = cmp $P1, $P1
is($I0,0)
$I0 = cmp $P2, $P1