hcl/pos_test.go
Martin Atkins 6c4344623b Unfold the "hcl" directory up into the root
The main HCL package is more visible this way, and so it's easier than
having to pick it out from dozens of other package directories.
2019-09-09 16:08:19 -07:00

468 lines
12 KiB
Go

package hcl
import (
"bytes"
"fmt"
"reflect"
"testing"
)
func TestRangeOver(t *testing.T) {
tests := []struct {
A Range
B Range
Want Range
}{
{
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // #####
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // #####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
},
{
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ###
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ###
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ##
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ##
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // ######
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
},
{
Range{ // ##
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // ##
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ######
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
},
}
for _, test := range tests {
t.Run(fmt.Sprintf("%s<=>%s", test.A, test.B), func(t *testing.T) {
got := RangeOver(test.A, test.B)
if !reflect.DeepEqual(got, test.Want) {
t.Errorf(
"wrong result\nA : %-10s %s\nB : %-10s %s\ngot : %-10s %s\nwant: %-10s %s",
visRangeOffsets(test.A), test.A,
visRangeOffsets(test.B), test.B,
visRangeOffsets(got), got,
visRangeOffsets(test.Want), test.Want,
)
}
})
}
}
func TestPosOverlap(t *testing.T) {
tests := []struct {
A Range
B Range
Want Range
}{
{
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ####
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ###
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ###
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ###
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ###
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ###
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ###
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ##
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ##
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // (no overlap)
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 0, Line: 1, Column: 1},
},
},
{
Range{ // ##
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 6, Line: 1, Column: 7},
},
Range{ // ##
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // (no overlap)
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
}
for _, test := range tests {
t.Run(fmt.Sprintf("%s<=>%s", test.A, test.B), func(t *testing.T) {
got := test.A.Overlap(test.B)
if !reflect.DeepEqual(got, test.Want) {
t.Errorf(
"wrong result\nA : %-10s %s\nB : %-10s %s\ngot : %-10s %s\nwant: %-10s %s",
visRangeOffsets(test.A), test.A,
visRangeOffsets(test.B), test.B,
visRangeOffsets(got), got,
visRangeOffsets(test.Want), test.Want,
)
}
})
}
}
func TestRangePartitionAround(t *testing.T) {
tests := []struct {
Outer Range
Inner Range
WantBefore Range
WantOverlap Range
WantAfter Range
}{
{
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // (empty)
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // (empty)
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ####
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // #
Start: Pos{Byte: 0, Line: 1, Column: 1},
End: Pos{Byte: 1, Line: 1, Column: 2},
},
Range{ // ###
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // (empty)
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
},
{
Range{ // ####
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // (empty)
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ###
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // #
Start: Pos{Byte: 5, Line: 1, Column: 6},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
{
Range{ // ####
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // #
Start: Pos{Byte: 1, Line: 1, Column: 2},
End: Pos{Byte: 2, Line: 1, Column: 3},
},
Range{ // ##
Start: Pos{Byte: 2, Line: 1, Column: 3},
End: Pos{Byte: 4, Line: 1, Column: 5},
},
Range{ // #
Start: Pos{Byte: 4, Line: 1, Column: 5},
End: Pos{Byte: 5, Line: 1, Column: 6},
},
},
}
for _, test := range tests {
t.Run(fmt.Sprintf("%s around %s", test.Outer, test.Inner), func(t *testing.T) {
gotBefore, gotOverlap, gotAfter := test.Outer.PartitionAround(test.Inner)
if !reflect.DeepEqual(gotBefore, test.WantBefore) {
t.Errorf(
"wrong before\nA : %-10s %s\nB : %-10s %s\ngot : %-10s %s\nwant: %-10s %s",
visRangeOffsets(test.Outer), test.Outer,
visRangeOffsets(test.Inner), test.Inner,
visRangeOffsets(gotBefore), gotBefore,
visRangeOffsets(test.WantBefore), test.WantBefore,
)
}
if !reflect.DeepEqual(gotOverlap, test.WantOverlap) {
t.Errorf(
"wrong overlap\nA : %-10s %s\nB : %-10s %s\ngot : %-10s %s\nwant: %-10s %s",
visRangeOffsets(test.Outer), test.Outer,
visRangeOffsets(test.Inner), test.Inner,
visRangeOffsets(gotOverlap), gotOverlap,
visRangeOffsets(test.WantOverlap), test.WantOverlap,
)
}
if !reflect.DeepEqual(gotAfter, test.WantAfter) {
t.Errorf(
"wrong after\nA : %-10s %s\nB : %-10s %s\ngot : %-10s %s\nwant: %-10s %s",
visRangeOffsets(test.Outer), test.Outer,
visRangeOffsets(test.Inner), test.Inner,
visRangeOffsets(gotAfter), gotAfter,
visRangeOffsets(test.WantAfter), test.WantAfter,
)
}
})
}
}
// visRangeOffsets is a helper that produces a visual representation of the
// start and end byte offsets of the given range, which can then be stacked
// with the same for other ranges to more easily see how the ranges relate
// to one another.
func visRangeOffsets(rng Range) string {
var buf bytes.Buffer
if rng.End.Byte < rng.Start.Byte {
// Should never happen, but we'll visualize it anyway so we can
// more easily debug failing tests.
for i := 0; i < rng.End.Byte; i++ {
buf.WriteByte(' ')
}
for i := rng.End.Byte; i < rng.Start.Byte; i++ {
buf.WriteByte('!')
}
return buf.String()
}
for i := 0; i < rng.Start.Byte; i++ {
buf.WriteByte(' ')
}
for i := rng.Start.Byte; i < rng.End.Byte; i++ {
buf.WriteByte('#')
}
return buf.String()
}