v/vlib/builtin/int_test.v

const (
	a = 3
	u = u64(1)
)

fn test_const() {
	b := (true && true) || false
	assert b == true
	assert a == 3
	assert u == u64(1)
	assert u == 1 // make sure this works without the cast
}

fn test_float_equal_operator() {
	b := f32(1.0)
	mut a := f32(1.0)
	a += 0.000001
	a -= 0.000001
	assert a == b
	assert !a.eqbit(1.0)
	assert !(a != f32(1.0))
	assert a.nebit(f32(1.0))
	a += 0.000001
	assert !(a < 1.0)
	assert !a.ltbit(1.0)
	assert !(a <= 1)
	assert !a.lebit(1)
	assert a > 1
	assert a.gtbit(1)
	assert a >= 1
	assert a.gebit(1)
	assert -1 == 1 * -1
	assert -1.0 == 1.0 * -1.0

	a = f64(1)
	a += 0.000001
	a -= 0.000001
	assert a == f32(1.0)
	assert !a.eqbit(f32(1.0))
	assert !(a != f32(1.0))
	a += 0.000001
	assert !(a < f32(1))
	assert !a.ltbit(f32(1))
	assert !(a <= f32(1))
	assert !a.lebit(f32(1))
	assert a > f32(1)
	assert a.gtbit(f32(1))
	assert a >= 1
	assert a.gebit(1)

	f := 1.2
	ab := int(f)
	assert ab == 1
}

fn test_str_methods() {
	assert i8(1).str() == '1'
	assert i8(-1).str() == '-1'
	assert i16(1).str() == '1'
	assert i16(-1).str() == '-1'
	assert int(1).str() == '1'
	assert int(-1).str() == '-1'
	assert i64(1).str() == '1'
	assert i64(-1).str() == '-1'

	// assert byte(1).str() == '1'
	// assert byte(-1).str() == '255'
	assert u16(1).str() == '1'
	assert u16(-1).str() == '65535'
	assert u32(1).str() == '1'
	assert u32(-1).str() == '4294967295'
	assert u64(1).str() == '1'
	assert u64(-1).str() == '18446744073709551615'
	assert voidptr(-1).str() == 'ffffffffffffffff'
	assert voidptr(1).str() == '1'
	assert byteptr(-1).str() == 'ffffffffffffffff'
	assert byteptr(1).str() == '1'
}

fn test_and_precendence() {
	assert (2 & 0 == 0) == ((2 & 0) == 0)
	assert (2 & 0 != 0) == ((2 & 0) != 0)
	assert (0 & 0 >= 0) == ((0 & 0) >= 0)
	assert (0 & 0 <= 0) == ((0 & 0) <= 0)
	assert (0 & 0 < 1) == ((0 & 0) < 1)
	assert (1 & 2 > 0) == ((1 & 2) > 0)
}

fn test_or_precendence() {
	assert (1 | 0 == 0) == ((1 | 0) == 0)
	assert (1 | 0 != 1) == ((1 | 0) != 1)
	assert (1 | 0 >= 2) == ((1 | 0) >= 2)
	assert (1 | 0 <= 0) == ((1 | 0) <= 0)
	assert (1 | 0 < 0) == ((1 | 0) < 0)
	assert (1 | 0 > 1) == ((1 | 0) > 1)
}

fn test_xor_precendence() {
	assert (1 ^ 0 == 2) == ((1 ^ 0) == 2)
	assert (1 ^ 0 != 2) == ((1 ^ 0) != 2)
	assert (1 ^ 0 >= 0) == ((1 ^ 0) >= 0)
	assert (1 ^ 0 <= 1) == ((1 ^ 0) <= 1)
	assert (1 ^ 0 < 0) == ((1 ^ 0) < 0)
	assert (1 ^ 0 > 1) == ((1 ^ 0) > 1)
}

fn test_left_shift_precendence() {
	assert (2 << 4 | 3) == ((2 << 4) | 3)
	assert (2 << 4 | 3) != (2 << (4 | 3))
}

fn test_right_shift_precendence() {
	assert (256 >> 4 | 3) == ((256 >> 4) | 3)
	assert (256 >> 4 | 3) != (256 >> (4 | 3))
}

fn test_i8_print() {
	b := i8(0)
	println(b)
	c := i16(7)
	println(c)
	d := u16(6)
	println(d)
	assert true
}

/*
fn test_cmp() {
	assert 1 ≠ 2
	assert 1 ⩽ 2
	assert 1 ⩾ 0
}
*/

type myint int
type mystring string

fn test_int_alias() {
	/*
	i := myint(2)
	s := mystring('hi')
	ss := s + '!'
	assert i + 10 == 12
	*/
}

fn test_hex() {
	x := u64(10)
	assert x.hex() == 'a'
	b := 1234
	assert b.hex() == '4d2'
	b1 := -1
	assert b1.hex() == 'ffffffff'
}

fn test_oct() {
	x1 := 0o12
	assert x1 == 10
	x2 := 00000o350
	assert x2 == 232
	x3 := 000o00073
	assert x3 == 59
	x4 := 00000000
	assert x4 == 0
	x5 := 00000195
	assert x5 == 195
	x6 := -0o744
	assert x6 == -484
	x7 := -000o000042
	assert x7 == -34
	x8 := -0000112
	assert x8 == -112
	x9 := -000
	assert x9 == 0
}

fn test_int_decl() {
	x1 := 0
	x2 := 1333
	x3 := -88955
	x4 := 2000000000
	x5 := -1999999999
	assert typeof(x1) == 'int'
	assert typeof(x2) == 'int'
	assert typeof(x3) == 'int'
	assert typeof(x4) == 'int'
	assert typeof(x5) == 'int'
	// integers are always 'int' by default
	x6 := 989898932113111
	x7 := u64(-321314588900011)
	assert typeof(x6) == 'int'
	assert typeof(x7) == 'u64'
}

fn test_int_to_hex() {
	// array hex
	st := [byte(`V`),`L`,`A`,`N`,`G`]
	assert st.hex() == "564c414e47"
	assert st.hex().len == 10

	st1 := [byte(0x41)].repeat(100)
	assert st1.hex() == "41".repeat(100)

	//--- int to hex tests
	c0 := 12

	// 8Bit
	assert byte(0).hex()   == "0"
	assert byte(c0).hex()  == "c"
	assert i8(c0).hex()    == "c"
	assert byte(127).hex() == "7f"
	assert i8(127).hex()   == "7f"
	assert byte(255).hex() == "ff"
	assert byte(-1).hex()  == "ff"

	// 16bit
	assert u16(0).hex()      == "0"
	assert i16(c0).hex()     == "c"
	assert u16(c0).hex()     == "c"
	assert i16(32767).hex()  == "7fff"
	assert u16(32767).hex()  == "7fff"
	assert i16(-1).hex()     == "ffff"
	assert u16(65535).hex()  == "ffff"

	// 32bit
	assert u32(0).hex()           == "0"
	assert c0.hex()               == "c"
	assert u32(c0).hex()          == "c"
	assert 2147483647.hex()       == "7fffffff"
	assert u32(2147483647).hex()  == "7fffffff"
	assert (-1).hex()             == "ffffffff"
	assert u32(4294967295).hex()  == "ffffffff"

	// 64 bit
	assert u64(0).hex()                      == "0"
	assert i64(c0).hex()                     == "c"
	assert u64(c0).hex()                     == "c"
	assert i64(9223372036854775807).hex()    == "7fffffffffffffff"
	assert u64(9223372036854775807).hex()    == "7fffffffffffffff"
	assert i64(-1).hex()                     == "ffffffffffffffff"
	assert u64(18446744073709551615).hex()   == "ffffffffffffffff"
}
force snake_case in struct fields 2019-08-04 09:16:44 +02:00			`const (`
			`a = 3`
remove u8 and i32 aliases 2019-09-01 21:37:22 +02:00			`u = u64(1)`
			`)`
force snake_case in struct fields 2019-08-04 09:16:44 +02:00
			`fn test_const() {`
remove u8 and i32 aliases 2019-09-01 21:37:22 +02:00			`b := (true && true) \|\| false`
			`assert b == true`
			`assert a == 3`
			`assert u == u64(1)`
compiler: allow "u64_var == 0" without casting the const literal 2019-09-23 01:14:10 +02:00			`assert u == 1 // make sure this works without the cast`
remove u8 and i32 aliases 2019-09-01 21:37:22 +02:00			`}`
scanner: experimental ≠ etc support 2019-08-05 16:57:54 +02:00
parser: float1 == float2 uses machine epsilon by default 2019-09-29 17:27:53 +02:00			`fn test_float_equal_operator() {`
cgen: do comparison of f32/f64 values for == and != by calling f64_eq(a,b) and f64_ne(a,b) 2020-04-08 02:49:20 +02:00			`b := f32(1.0)`
			`mut a := f32(1.0)`
parser: float1 == float2 uses machine epsilon by default 2019-09-29 17:27:53 +02:00			`a += 0.000001`
			`a -= 0.000001`
cgen: do comparison of f32/f64 values for == and != by calling f64_eq(a,b) and f64_ne(a,b) 2020-04-08 02:49:20 +02:00			`assert a == b`
			`assert !a.eqbit(1.0)`
			`assert !(a != f32(1.0))`
			`assert a.nebit(f32(1.0))`
compiler: float comparison uses machine epsilon by default 2019-10-01 21:38:36 +02:00			`a += 0.000001`
cgen: do comparison of f32/f64 values for == and != by calling f64_eq(a,b) and f64_ne(a,b) 2020-04-08 02:49:20 +02:00			`assert !(a < 1.0)`
			`assert !a.ltbit(1.0)`
compiler: float comparison uses machine epsilon by default 2019-10-01 21:38:36 +02:00			`assert !(a <= 1)`
			`assert !a.lebit(1)`
			`assert a > 1`
			`assert a.gtbit(1)`
			`assert a >= 1`
			`assert a.gebit(1)`
parser: fix prefix precedence 2020-04-08 13:53:11 +02:00			`assert -1 == 1 * -1`
			`assert -1.0 == 1.0 * -1.0`
parser: float1 == float2 uses machine epsilon by default 2019-09-29 17:27:53 +02:00
			`a = f64(1)`
			`a += 0.000001`
			`a -= 0.000001`
cgen: do comparison of f32/f64 values for == and != by calling f64_eq(a,b) and f64_ne(a,b) 2020-04-08 02:49:20 +02:00			`assert a == f32(1.0)`
			`assert !a.eqbit(f32(1.0))`
			`assert !(a != f32(1.0))`
compiler: float comparison uses machine epsilon by default 2019-10-01 21:38:36 +02:00			`a += 0.000001`
cgen: do comparison of f32/f64 values for == and != by calling f64_eq(a,b) and f64_ne(a,b) 2020-04-08 02:49:20 +02:00			`assert !(a < f32(1))`
			`assert !a.ltbit(f32(1))`
			`assert !(a <= f32(1))`
			`assert !a.lebit(f32(1))`
			`assert a > f32(1)`
			`assert a.gtbit(f32(1))`
compiler: float comparison uses machine epsilon by default 2019-10-01 21:38:36 +02:00			`assert a >= 1`
			`assert a.gebit(1)`
`as` casting 2019-12-30 10:45:56 +01:00
			`f := 1.2`
fix int_test.v 2020-02-07 22:16:14 +01:00			`ab := int(f)`
`as` casting 2019-12-30 10:45:56 +01:00			`assert ab == 1`
parser: float1 == float2 uses machine epsilon by default 2019-09-29 17:27:53 +02:00			`}`

compiler: unsigned number properly printed and converted to string fix: array accessing now works with unsigned numbers 2019-08-12 01:58:08 +02:00			`fn test_str_methods() {`
			`assert i8(1).str() == '1'`
			`assert i8(-1).str() == '-1'`
			`assert i16(1).str() == '1'`
			`assert i16(-1).str() == '-1'`
remove u8 and i32 aliases 2019-09-01 21:37:22 +02:00			`assert int(1).str() == '1'`
			`assert int(-1).str() == '-1'`
compiler: unsigned number properly printed and converted to string fix: array accessing now works with unsigned numbers 2019-08-12 01:58:08 +02:00			`assert i64(1).str() == '1'`
			`assert i64(-1).str() == '-1'`

fix bugs breaking tests 2019-09-03 13:57:04 +02:00			`// assert byte(1).str() == '1'`
			`// assert byte(-1).str() == '255'`
compiler: unsigned number properly printed and converted to string fix: array accessing now works with unsigned numbers 2019-08-12 01:58:08 +02:00			`assert u16(1).str() == '1'`
			`assert u16(-1).str() == '65535'`
			`assert u32(1).str() == '1'`
			`assert u32(-1).str() == '4294967295'`
			`assert u64(1).str() == '1'`
			`assert u64(-1).str() == '18446744073709551615'`
builtin: voidptr.str() and byteptr.str() 2020-05-04 13:20:18 +02:00			`assert voidptr(-1).str() == 'ffffffffffffffff'`
			`assert voidptr(1).str() == '1'`
			`assert byteptr(-1).str() == 'ffffffffffffffff'`
			`assert byteptr(1).str() == '1'`
compiler: unsigned number properly printed and converted to string fix: array accessing now works with unsigned numbers 2019-08-12 01:58:08 +02:00			`}`

builtin: add operator precedence test 2020-04-02 19:02:49 +02:00			`fn test_and_precendence() {`
			`assert (2 & 0 == 0) == ((2 & 0) == 0)`
			`assert (2 & 0 != 0) == ((2 & 0) != 0)`
			`assert (0 & 0 >= 0) == ((0 & 0) >= 0)`
			`assert (0 & 0 <= 0) == ((0 & 0) <= 0)`
			`assert (0 & 0 < 1) == ((0 & 0) < 1)`
			`assert (1 & 2 > 0) == ((1 & 2) > 0)`
			`}`

			`fn test_or_precendence() {`
			`assert (1 \| 0 == 0) == ((1 \| 0) == 0)`
			`assert (1 \| 0 != 1) == ((1 \| 0) != 1)`
			`assert (1 \| 0 >= 2) == ((1 \| 0) >= 2)`
			`assert (1 \| 0 <= 0) == ((1 \| 0) <= 0)`
			`assert (1 \| 0 < 0) == ((1 \| 0) < 0)`
			`assert (1 \| 0 > 1) == ((1 \| 0) > 1)`
			`}`

			`fn test_xor_precendence() {`
			`assert (1 ^ 0 == 2) == ((1 ^ 0) == 2)`
			`assert (1 ^ 0 != 2) == ((1 ^ 0) != 2)`
			`assert (1 ^ 0 >= 0) == ((1 ^ 0) >= 0)`
			`assert (1 ^ 0 <= 1) == ((1 ^ 0) <= 1)`
			`assert (1 ^ 0 < 0) == ((1 ^ 0) < 0)`
			`assert (1 ^ 0 > 1) == ((1 ^ 0) > 1)`
parser: fix `a & b == c` precedence 2019-11-29 20:42:32 +01:00			`}`

builtin: test left/right shift precedence 2020-04-14 19:38:11 +02:00			`fn test_left_shift_precendence() {`
			`assert (2 << 4 \| 3) == ((2 << 4) \| 3)`
			`assert (2 << 4 \| 3) != (2 << (4 \| 3))`
			`}`

			`fn test_right_shift_precendence() {`
			`assert (256 >> 4 \| 3) == ((256 >> 4) \| 3)`
			`assert (256 >> 4 \| 3) != (256 >> (4 \| 3))`
			`}`

i8 print test + $if mac => $if macos 2019-12-03 14:09:37 +01:00			`fn test_i8_print() {`
			`b := i8(0)`
			`println(b)`
			`c := i16(7)`
			`println(c)`
			`d := u16(6)`
			`println(d)`
			`assert true`
			`}`

fix int_test.v 2019-08-09 10:21:21 +02:00			`/*`
scanner: experimental ≠ etc support 2019-08-05 16:57:54 +02:00			`fn test_cmp() {`
			`assert 1 ≠ 2`
			`assert 1 ⩽ 2`
			`assert 1 ⩾ 0`
remove u8 and i32 aliases 2019-09-01 21:37:22 +02:00			`}`
fix int_test.v 2019-08-09 10:21:21 +02:00			`*/`
get_type.v 2019-12-05 16:47:29 +01:00
			`type myint int`
			`type mystring string`

			`fn test_int_alias() {`
			`/*`
			`i := myint(2)`
			`s := mystring('hi')`
			`ss := s + '!'`
			`assert i + 10 == 12`
			`*/`
			`}`
v2: scopes, or, in, hex 2020-02-04 17:44:39 +01:00
			`fn test_hex() {`
			`x := u64(10)`
builtin: new str(), hex() functions without C.printf 2020-03-11 00:38:11 +01:00			`assert x.hex() == 'a'`
			`b := 1234`
			`assert b.hex() == '4d2'`
			`b1 := -1`
			`assert b1.hex() == 'ffffffff'`
v2: scopes, or, in, hex 2020-02-04 17:44:39 +01:00			`}`
scanner: enable 0oxx to handle octals 2020-02-23 12:33:07 +01:00
			`fn test_oct() {`
			`x1 := 0o12`
			`assert x1 == 10`
scanner: make `0o` prefix the only way to define octals 2020-02-23 23:43:04 +01:00			`x2 := 00000o350`
			`assert x2 == 232`
			`x3 := 000o00073`
			`assert x3 == 59`
			`x4 := 00000000`
			`assert x4 == 0`
			`x5 := 00000195`
			`assert x5 == 195`
			`x6 := -0o744`
			`assert x6 == -484`
			`x7 := -000o000042`
			`assert x7 == -34`
			`x8 := -0000112`
			`assert x8 == -112`
			`x9 := -000`
			`assert x9 == 0`
scanner: enable 0oxx to handle octals 2020-02-23 12:33:07 +01:00			`}`
expression: set floats as f64 by default 2020-03-19 07:24:49 +01:00
			`fn test_int_decl() {`
			`x1 := 0`
			`x2 := 1333`
			`x3 := -88955`
			`x4 := 2000000000`
			`x5 := -1999999999`
			`assert typeof(x1) == 'int'`
			`assert typeof(x2) == 'int'`
			`assert typeof(x3) == 'int'`
			`assert typeof(x4) == 'int'`
			`assert typeof(x5) == 'int'`
expression: set integer literals as int by default 2020-03-23 20:05:37 +01:00			`// integers are always 'int' by default`
expression: set floats as f64 by default 2020-03-19 07:24:49 +01:00			`x6 := 989898932113111`
expression: set integer literals as int by default 2020-03-23 20:05:37 +01:00			`x7 := u64(-321314588900011)`
			`assert typeof(x6) == 'int'`
expression: set floats as f64 by default 2020-03-19 07:24:49 +01:00			`assert typeof(x7) == 'u64'`
			`}`
cgen: generate fn main for tests; fix consts bug 2020-03-24 22:23:59 +01:00
builtin: fix int to hex 2020-04-02 17:16:17 +02:00			`fn test_int_to_hex() {`
			`// array hex`
			st := [byte(`V`),`L`,`A`,`N`,`G`]
			`assert st.hex() == "564c414e47"`
			`assert st.hex().len == 10`

			`st1 := [byte(0x41)].repeat(100)`
			`assert st1.hex() == "41".repeat(100)`

			`//--- int to hex tests`
			`c0 := 12`

			`// 8Bit`
			`assert byte(0).hex() == "0"`
			`assert byte(c0).hex() == "c"`
			`assert i8(c0).hex() == "c"`
			`assert byte(127).hex() == "7f"`
			`assert i8(127).hex() == "7f"`
			`assert byte(255).hex() == "ff"`
			`assert byte(-1).hex() == "ff"`

			`// 16bit`
			`assert u16(0).hex() == "0"`
			`assert i16(c0).hex() == "c"`
			`assert u16(c0).hex() == "c"`
			`assert i16(32767).hex() == "7fff"`
			`assert u16(32767).hex() == "7fff"`
			`assert i16(-1).hex() == "ffff"`
			`assert u16(65535).hex() == "ffff"`

			`// 32bit`
			`assert u32(0).hex() == "0"`
			`assert c0.hex() == "c"`
			`assert u32(c0).hex() == "c"`
			`assert 2147483647.hex() == "7fffffff"`
			`assert u32(2147483647).hex() == "7fffffff"`
			`assert (-1).hex() == "ffffffff"`
			`assert u32(4294967295).hex() == "ffffffff"`

			`// 64 bit`
			`assert u64(0).hex() == "0"`
			`assert i64(c0).hex() == "c"`
			`assert u64(c0).hex() == "c"`
			`assert i64(9223372036854775807).hex() == "7fffffffffffffff"`
			`assert u64(9223372036854775807).hex() == "7fffffffffffffff"`
			`assert i64(-1).hex() == "ffffffffffffffff"`
			`assert u64(18446744073709551615).hex() == "ffffffffffffffff"`
			`}`