sq/testh/tutil/tutil.go
Neil O'Toole ad23d5c116
Auto-detect CSV headers (#188)
* wip: initial header detection

* wip: refactored csv driver

* wip: Fixes to kind.Detector

* typo

* Refactor pkg csv files

* Update to changelog

* workflow: now running codacy and codeql on cron, not on push/pr
2023-04-09 08:44:27 -06:00

251 lines
6.5 KiB
Go

// Package tutil contains basic generic test utilities.
package tutil
import (
"fmt"
"reflect"
"strings"
"testing"
"github.com/neilotoole/sq/libsq/core/stringz"
"github.com/stretchr/testify/require"
)
// SkipIff skips t if b is true. If msgAndArgs is non-empty, its first
// element must be a string, which can be a format string if there are
// additional elements.
//
// Examples:
//
// tutil.SkipIff(t, a == b)
// tutil.SkipIff(t, a == b, "skipping because a == b")
// tutil.SkipIff(t, a == b, "skipping because a is %v and b is %v", a, b)
func SkipIff(t testing.TB, b bool, format string, args ...any) {
if b {
if format == "" {
t.SkipNow()
} else {
t.Skipf(format, args...)
}
}
}
// StructFieldValue extracts the value of fieldName from arg strct.
// If strct is nil, nil is returned.
// The function will panic if strct is not a struct (or pointer to struct), or if
// the struct does not have fieldName. The returned value may be nil if the
// field is a pointer and is nil.
//
// Note that this function uses reflection, and may panic. It is only
// to be used by test code.
//
// See also: SliceFieldValues, SliceFieldKeyValues.
func StructFieldValue(fieldName string, strct any) any {
if strct == nil {
return nil
}
// zv is the zero value of reflect.Value, which can be returned by FieldByName
zv := reflect.Value{}
e := reflect.Indirect(reflect.ValueOf(strct))
if e.Kind() != reflect.Struct {
panic(fmt.Sprintf("strct expected to be struct but was %s", e.Kind()))
}
f := e.FieldByName(fieldName)
if f == zv { //nolint:govet
// According to govet:
//
// reflectvaluecompare: avoid using == with reflect.Value
//
// Maybe we should be using f.IsZero instead?
panic(fmt.Sprintf("struct (%T) does not have field {%s}", strct, fieldName))
}
fieldValue := f.Interface()
return fieldValue
}
// SliceFieldValues takes a slice of structs, and returns a slice
// containing the value of fieldName for each element of slice.
//
// Note that slice can be []interface{}, or a typed slice (e.g. []*Person).
// If slice is nil, nil is returned. If slice has len zero, an empty slice
// is returned. The function panics if slice is not a slice, or if any element
// of slice is not a struct (excepting nil elements).
//
// Note that this function uses reflection, and may panic. It is only
// to be used by test code.
//
// See also: StructFieldValue, SliceFieldKeyValues.
func SliceFieldValues(fieldName string, slice any) []any {
if slice == nil {
return nil
}
s := reflect.ValueOf(slice)
if s.Kind() != reflect.Slice {
panic(fmt.Sprintf("arg slice expected to be a slice, but was {%T}", slice))
}
iSlice := InterfaceSlice(slice)
retVals := make([]any, len(iSlice))
for i := range iSlice {
retVals[i] = StructFieldValue(fieldName, iSlice[i])
}
return retVals
}
// SliceFieldKeyValues is similar to SliceFieldValues, but instead of
// returning a slice of field values, it returns a map containing two
// field values, a "key" and a "value". For example:
//
// persons := []*person{
// {Name: "Alice", Age: 42},
// {Name: "Bob", Age: 27},
// }
//
// m := SliceFieldKeyValues("Name", "Age", persons)
// // map[Alice:42 Bob:27]
//
// Note that this function uses reflection, and may panic. It is only
// to be used by test code.
//
// See also: StructFieldValue, SliceFieldValues.
func SliceFieldKeyValues(keyFieldName, valFieldName string, slice any) map[any]any {
if slice == nil {
return nil
}
s := reflect.ValueOf(slice)
if s.Kind() != reflect.Slice {
panic(fmt.Sprintf("arg slice expected to be a slice, but was {%T}", slice))
}
iSlice := InterfaceSlice(slice)
m := make(map[any]any, len(iSlice))
for i := range iSlice {
key := StructFieldValue(keyFieldName, iSlice[i])
val := StructFieldValue(valFieldName, iSlice[i])
m[key] = val
}
return m
}
// InterfaceSlice converts a typed slice (such as []string) to []interface{}.
// If slice is already of type []interface{}, it is returned unmodified.
// Otherwise a new []interface{} is constructed. If slice is nil, nil is
// returned. The function panics if slice is not a slice.
//
// Note that this function uses reflection, and may panic. It is only
// to be used by test code.
func InterfaceSlice(slice any) []any {
if slice == nil {
return nil
}
// If it's already an []interface{}, then just return
if iSlice, ok := slice.([]any); ok {
return iSlice
}
s := reflect.ValueOf(slice)
if s.Kind() != reflect.Slice {
panic(fmt.Sprintf("arg slice expected to be a slice, but was {%T}", slice))
}
// Keep the distinction between nil and empty slice input
if s.IsNil() {
return nil
}
ret := make([]any, s.Len())
for i := 0; i < s.Len(); i++ {
ret[i] = s.Index(i).Interface()
}
return ret
}
// StringSlice accepts a slice of arbitrary type (e.g. []int64 or []interface{})
// and returns a slice of string.
func StringSlice(slice any) []string {
if slice == nil {
return nil
}
// If it's already []string, return directly
if sSlice, ok := slice.([]string); ok {
return sSlice
}
iSlice := InterfaceSlice(slice)
sSlice := make([]string, len(iSlice))
for i := range iSlice {
sSlice[i] = fmt.Sprintf("%v", iSlice[i])
}
return sSlice
}
// Name is a convenience function for building a test name to
// pass to t.Run.
//
// t.Run(testh.Name("my_test", 1), func(t *testing.T) {
//
// The most common usage is with test names that are file
// paths.
//
// testh.Name("path/to/file") --> "path_to_file"
//
// Any element of arg that prints to empty string is skipped.
func Name(args ...any) string {
var parts []string
var s string
for _, a := range args {
v := stringz.Val(a)
s = fmt.Sprintf("%v", v)
if s == "" {
continue
}
s = strings.ReplaceAll(s, "/", "_")
s = strings.ReplaceAll(s, ":", "_")
s = strings.ReplaceAll(s, `\`, "_")
s = stringz.TrimLen(s, 40) // we don't want it to be too long
parts = append(parts, s)
}
s = strings.Join(parts, "_")
if s == "" {
return "empty"
}
return s
}
// SkipShort invokes t.Skip if testing.Short and arg skip are both true.
func SkipShort(t *testing.T, skip bool) {
if skip && testing.Short() {
t.Skip("Skipping long-running test because -short is true.")
}
}
// AssertCompareFunc matches several of the testify/require funcs.
// It can be used to choose assertion comparison funcs in test cases.
type AssertCompareFunc func(require.TestingT, any, any, ...any)
// Verify that a sample of the require funcs match AssertCompareFunc.
var (
_ AssertCompareFunc = require.Equal
_ AssertCompareFunc = require.GreaterOrEqual
_ AssertCompareFunc = require.Greater
)