v/vlib/v/tests/fixed_array_test.v

124 lines
2.0 KiB
V

fn test_fixed_array_can_be_assigned() {
x := 2.32
mut v := [8]f64{}
assert v[1] == 0
v = [1.0, x, 3.0,4.0,5.0,6.0,7.0,8.0]!
assert v[1] == x
v[1] = 2.0
for i, e in v {
assert e == i + 1
}
v = [8]f64{}
assert v[1] == 0
// test slicing
for e in v[0..v.len] {
assert e == 0
}
v = [8]f64{init: 3.0}
assert v[1] == 3.0
}
fn test_fixed_array_assignment() {
mut a := [2]int{}
a[0] = 111
a[1] = 222
b := a
assert b[0] == a[0]
assert b[1] == a[1]
mut c := [2]int{}
c = a
assert c[0] == a[0]
assert c[1] == a[1]
d := [3]int{init: 333}
for val in d {
assert val == 333
}
e := [3]string{init: 'vlang'}
for val in e {
assert val == 'vlang'
}
}
fn test_fixed_array_can_be_used_in_declaration() {
x := 2.32
v := [1.0, x, 3.0,4.0,5.0,6.0,7.0,8.0]!
assert v.len == 8
assert v[1] == x
}
struct Context {
pub mut:
vb [8]f64
}
fn test_fixed_array_can_be_assigned_to_a_struct_field() {
mut ctx := Context{}
assert ctx.vb.len == 8
x := 2.32
ctx.vb = [1.1, x, 3.3, 4.4, 5.0, 6.0, 7.0, 8.9]!
assert ctx.vb[1] == x
assert ctx.vb[7] == 8.9
for i, e in ctx.vb {
assert e == ctx.vb[i]
}
assert ctx.vb == ctx.vb
/*
println( ctx.vb[0] )
println( ctx.vb[1] )
println( ctx.vb[2] )
println( ctx.vb[3] )
*/
}
fn multiply_by_two(mut arr [3]int) {
for i in 0..arr.len {
arr[i] *= 2
}
}
fn change_first_element(mut arr [3][3]int) {
arr[0][0] = 0
}
fn test_fixed_array_can_be_passed_as_mut_arg() {
mut arr := [1,2,3]!
multiply_by_two(mut arr)
assert arr == [2,4,6]!
mut arr2 := [[1,2,3]!, [4,5,6]!, [7,8,9]!]!
change_first_element(mut arr2)
assert arr2 == [[0,2,3]!, [4,5,6]!, [7,8,9]!]!
}
fn test_iteration_over_fixed_array() {
mut s := u16(0)
arr := [u16(3), 2, 17, 23]!
for v in arr {
s += v
}
assert s == 45
}
fn test_iteration_over_fixed_array_literal() {
mut s := 0.0
for v in [0.5, -2.25, 3.75, 12.0, 13.25]! {
s += v
}
assert s == 27.25
}
fn calc_size(a [3]int) {
mut s := 0
for i in a {
println(i)
s += i
}
assert s == 6
}
fn test_for_in_fixed_array() {
arr := [1,2,3]!
calc_size(arr)
}