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keyvalues.go
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keyvalues.go
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// Copyright 2012-2014 Charles Banning. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file
// keyvalues.go: Extract values from an arbitrary XML doc. Tag path can include wildcard characters.
package mxj
import (
"errors"
"fmt"
"strconv"
"strings"
)
// ----------------------------- get everything FOR a single key -------------------------
const (
minArraySize = 32
)
var defaultArraySize int = minArraySize
// SetArraySize adjust the buffers for expected number of values to return from ValuesForKey() and ValuesForPath().
// This can have the effect of significantly reducing memory allocation-copy functions for large data sets.
// Returns the initial buffer size.
func SetArraySize(size int) int {
if size > minArraySize {
defaultArraySize = size
} else {
defaultArraySize = minArraySize
}
return defaultArraySize
}
// ValuesForKey return all values in Map, 'mv', associated with a 'key'. If len(returned_values) == 0, then no match.
// On error, the returned slice is 'nil'. NOTE: 'key' can be wildcard, "*".
// 'subkeys' (optional) are "key:val[:type]" strings representing attributes or elements in a list.
// - By default 'val' is of type string. "key:val:bool" and "key:val:float" to coerce them.
// - For attributes prefix the label with the attribute prefix character, by default a
// hyphen, '-', e.g., "-seq:3". (See SetAttrPrefix function.)
// - If the 'key' refers to a list, then "key:value" could select a list member of the list.
// - The subkey can be wildcarded - "key:*" - to require that it's there with some value.
// - If a subkey is preceeded with the '!' character, the key:value[:type] entry is treated as an
// exclusion critera - e.g., "!author:William T. Gaddis".
// - If val contains ":" symbol, use SetFieldSeparator to a unused symbol, perhaps "|".
func (mv Map) ValuesForKey(key string, subkeys ...string) ([]interface{}, error) {
m := map[string]interface{}(mv)
var subKeyMap map[string]interface{}
if len(subkeys) > 0 {
var err error
subKeyMap, err = getSubKeyMap(subkeys...)
if err != nil {
return nil, err
}
}
ret := make([]interface{}, 0, defaultArraySize)
var cnt int
hasKey(m, key, &ret, &cnt, subKeyMap)
return ret[:cnt], nil
}
var KeyNotExistError = errors.New("Key does not exist")
// ValueForKey is a wrapper on ValuesForKey. It returns the first member of []interface{}, if any.
// If there is no value, "nil, nil" is returned.
func (mv Map) ValueForKey(key string, subkeys ...string) (interface{}, error) {
vals, err := mv.ValuesForKey(key, subkeys...)
if err != nil {
return nil, err
}
if len(vals) == 0 {
return nil, KeyNotExistError
}
return vals[0], nil
}
// hasKey - if the map 'key' exists append it to array
// if it doesn't do nothing except scan array and map values
func hasKey(iv interface{}, key string, ret *[]interface{}, cnt *int, subkeys map[string]interface{}) {
// func hasKey(iv interface{}, key string, ret *[]interface{}, subkeys map[string]interface{}) {
switch iv.(type) {
case map[string]interface{}:
vv := iv.(map[string]interface{})
// see if the current value is of interest
if v, ok := vv[key]; ok {
switch v.(type) {
case map[string]interface{}:
if hasSubKeys(v, subkeys) {
*ret = append(*ret, v)
*cnt++
}
case []interface{}:
for _, av := range v.([]interface{}) {
if hasSubKeys(av, subkeys) {
*ret = append(*ret, av)
*cnt++
}
}
default:
if len(subkeys) == 0 {
*ret = append(*ret, v)
*cnt++
}
}
}
// wildcard case
if key == "*" {
for _, v := range vv {
switch v.(type) {
case map[string]interface{}:
if hasSubKeys(v, subkeys) {
*ret = append(*ret, v)
*cnt++
}
case []interface{}:
for _, av := range v.([]interface{}) {
if hasSubKeys(av, subkeys) {
*ret = append(*ret, av)
*cnt++
}
}
default:
if len(subkeys) == 0 {
*ret = append(*ret, v)
*cnt++
}
}
}
}
// scan the rest
for _, v := range vv {
hasKey(v, key, ret, cnt, subkeys)
}
case []interface{}:
for _, v := range iv.([]interface{}) {
hasKey(v, key, ret, cnt, subkeys)
}
}
}
// ----------------------- get everything for a node in the Map ---------------------------
// Allow indexed arrays in "path" specification. (Request from Abhijit Kadam - [email protected].)
// 2014.04.28 - implementation note.
// Implemented as a wrapper of (old)ValuesForPath() because we need look-ahead logic to handle expansion
// of wildcards and unindexed arrays. Embedding such logic into valuesForKeyPath() would have made the
// code much more complicated; this wrapper is straightforward, easy to debug, and doesn't add significant overhead.
// ValuesForPatb retrieves all values for a path from the Map. If len(returned_values) == 0, then no match.
// On error, the returned array is 'nil'.
// 'path' is a dot-separated path of key values.
// - If a node in the path is '*', then everything beyond is walked.
// - 'path' can contain indexed array references, such as, "*.data[1]" and "msgs[2].data[0].field" -
// even "*[2].*[0].field".
// 'subkeys' (optional) are "key:val[:type]" strings representing attributes or elements in a list.
// - By default 'val' is of type string. "key:val:bool" and "key:val:float" to coerce them.
// - For attributes prefix the label with the attribute prefix character, by default a
// hyphen, '-', e.g., "-seq:3". (See SetAttrPrefix function.)
// - If the 'path' refers to a list, then "tag:value" would return member of the list.
// - The subkey can be wildcarded - "key:*" - to require that it's there with some value.
// - If a subkey is preceeded with the '!' character, the key:value[:type] entry is treated as an
// exclusion critera - e.g., "!author:William T. Gaddis".
// - If val contains ":" symbol, use SetFieldSeparator to a unused symbol, perhaps "|".
func (mv Map) ValuesForPath(path string, subkeys ...string) ([]interface{}, error) {
// If there are no array indexes in path, use legacy ValuesForPath() logic.
if strings.Index(path, "[") < 0 {
return mv.oldValuesForPath(path, subkeys...)
}
var subKeyMap map[string]interface{}
if len(subkeys) > 0 {
var err error
subKeyMap, err = getSubKeyMap(subkeys...)
if err != nil {
return nil, err
}
}
keys, kerr := parsePath(path)
if kerr != nil {
return nil, kerr
}
vals, verr := valuesForArray(keys, mv)
if verr != nil {
return nil, verr // Vals may be nil, but return empty array.
}
// Need to handle subkeys ... only return members of vals that satisfy conditions.
retvals := make([]interface{}, 0)
for _, v := range vals {
if hasSubKeys(v, subKeyMap) {
retvals = append(retvals, v)
}
}
return retvals, nil
}
func valuesForArray(keys []*key, m Map) ([]interface{}, error) {
var tmppath string
var haveFirst bool
var vals []interface{}
var verr error
lastkey := len(keys) - 1
for i := 0; i <= lastkey; i++ {
if !haveFirst {
tmppath = keys[i].name
haveFirst = true
} else {
tmppath += "." + keys[i].name
}
// Look-ahead: explode wildcards and unindexed arrays.
// Need to handle un-indexed list recursively:
// e.g., path is "stuff.data[0]" rather than "stuff[0].data[0]".
// Need to treat it as "stuff[0].data[0]", "stuff[1].data[0]", ...
if !keys[i].isArray && i < lastkey && keys[i+1].isArray {
// Can't pass subkeys because we may not be at literal end of path.
vv, vverr := m.oldValuesForPath(tmppath)
if vverr != nil {
return nil, vverr
}
for _, v := range vv {
// See if we can walk the value.
am, ok := v.(map[string]interface{})
if !ok {
continue
}
// Work the backend.
nvals, nvalserr := valuesForArray(keys[i+1:], Map(am))
if nvalserr != nil {
return nil, nvalserr
}
vals = append(vals, nvals...)
}
break // have recursed the whole path - return
}
if keys[i].isArray || i == lastkey {
// Don't pass subkeys because may not be at literal end of path.
vals, verr = m.oldValuesForPath(tmppath)
} else {
continue
}
if verr != nil {
return nil, verr
}
if i == lastkey && !keys[i].isArray {
break
}
// Now we're looking at an array - supposedly.
// Is index in range of vals?
if len(vals) <= keys[i].position {
vals = nil
break
}
// Return the array member of interest, if at end of path.
if i == lastkey {
vals = vals[keys[i].position:(keys[i].position + 1)]
break
}
// Extract the array member of interest.
am := vals[keys[i].position:(keys[i].position + 1)]
// must be a map[string]interface{} value so we can keep walking the path
amm, ok := am[0].(map[string]interface{})
if !ok {
vals = nil
break
}
m = Map(amm)
haveFirst = false
}
return vals, nil
}
type key struct {
name string
isArray bool
position int
}
func parsePath(s string) ([]*key, error) {
keys := strings.Split(s, ".")
ret := make([]*key, 0)
for i := 0; i < len(keys); i++ {
if keys[i] == "" {
continue
}
newkey := new(key)
if strings.Index(keys[i], "[") < 0 {
newkey.name = keys[i]
ret = append(ret, newkey)
continue
}
p := strings.Split(keys[i], "[")
newkey.name = p[0]
p = strings.Split(p[1], "]")
if p[0] == "" { // no right bracket
return nil, fmt.Errorf("no right bracket on key index: %s", keys[i])
}
// convert p[0] to a int value
pos, nerr := strconv.ParseInt(p[0], 10, 32)
if nerr != nil {
return nil, fmt.Errorf("cannot convert index to int value: %s", p[0])
}
newkey.position = int(pos)
newkey.isArray = true
ret = append(ret, newkey)
}
return ret, nil
}
// legacy ValuesForPath() - now wrapped to handle special case of indexed arrays in 'path'.
func (mv Map) oldValuesForPath(path string, subkeys ...string) ([]interface{}, error) {
m := map[string]interface{}(mv)
var subKeyMap map[string]interface{}
if len(subkeys) > 0 {
var err error
subKeyMap, err = getSubKeyMap(subkeys...)
if err != nil {
return nil, err
}
}
keys := strings.Split(path, ".")
if keys[len(keys)-1] == "" {
keys = keys[:len(keys)-1]
}
ivals := make([]interface{}, 0, defaultArraySize)
var cnt int
valuesForKeyPath(&ivals, &cnt, m, keys, subKeyMap)
return ivals[:cnt], nil
}
func valuesForKeyPath(ret *[]interface{}, cnt *int, m interface{}, keys []string, subkeys map[string]interface{}) {
lenKeys := len(keys)
// load 'm' values into 'ret'
// expand any lists
if lenKeys == 0 {
switch m.(type) {
case map[string]interface{}:
if subkeys != nil {
if ok := hasSubKeys(m, subkeys); !ok {
return
}
}
*ret = append(*ret, m)
*cnt++
case []interface{}:
for i, v := range m.([]interface{}) {
if subkeys != nil {
if ok := hasSubKeys(v, subkeys); !ok {
continue // only load list members with subkeys
}
}
*ret = append(*ret, (m.([]interface{}))[i])
*cnt++
}
default:
if subkeys != nil {
return // must be map[string]interface{} if there are subkeys
}
*ret = append(*ret, m)
*cnt++
}
return
}
// key of interest
key := keys[0]
switch key {
case "*": // wildcard - scan all values
switch m.(type) {
case map[string]interface{}:
for _, v := range m.(map[string]interface{}) {
// valuesForKeyPath(ret, v, keys[1:], subkeys)
valuesForKeyPath(ret, cnt, v, keys[1:], subkeys)
}
case []interface{}:
for _, v := range m.([]interface{}) {
switch v.(type) {
// flatten out a list of maps - keys are processed
case map[string]interface{}:
for _, vv := range v.(map[string]interface{}) {
// valuesForKeyPath(ret, vv, keys[1:], subkeys)
valuesForKeyPath(ret, cnt, vv, keys[1:], subkeys)
}
default:
// valuesForKeyPath(ret, v, keys[1:], subkeys)
valuesForKeyPath(ret, cnt, v, keys[1:], subkeys)
}
}
}
default: // key - must be map[string]interface{}
switch m.(type) {
case map[string]interface{}:
if v, ok := m.(map[string]interface{})[key]; ok {
// valuesForKeyPath(ret, v, keys[1:], subkeys)
valuesForKeyPath(ret, cnt, v, keys[1:], subkeys)
}
case []interface{}: // may be buried in list
for _, v := range m.([]interface{}) {
switch v.(type) {
case map[string]interface{}:
if vv, ok := v.(map[string]interface{})[key]; ok {
// valuesForKeyPath(ret, vv, keys[1:], subkeys)
valuesForKeyPath(ret, cnt, vv, keys[1:], subkeys)
}
}
}
}
}
}
// hasSubKeys() - interface{} equality works for string, float64, bool
// 'v' must be a map[string]interface{} value to have subkeys
// 'a' can have k:v pairs with v.(string) == "*", which is treated like a wildcard.
func hasSubKeys(v interface{}, subkeys map[string]interface{}) bool {
if len(subkeys) == 0 {
return true
}
switch v.(type) {
case map[string]interface{}:
// do all subKey name:value pairs match?
mv := v.(map[string]interface{})
for skey, sval := range subkeys {
isNotKey := false
if skey[:1] == "!" { // a NOT-key
skey = skey[1:]
isNotKey = true
}
vv, ok := mv[skey]
if !ok { // key doesn't exist
if isNotKey { // key not there, but that's what we want
if kv, ok := sval.(string); ok && kv == "*" {
continue
}
}
return false
}
// wildcard check
if kv, ok := sval.(string); ok && kv == "*" {
if isNotKey { // key is there, and we don't want it
return false
}
continue
}
switch sval.(type) {
case string:
if s, ok := vv.(string); ok && s == sval.(string) {
if isNotKey {
return false
}
continue
}
case bool:
if b, ok := vv.(bool); ok && b == sval.(bool) {
if isNotKey {
return false
}
continue
}
case float64:
if f, ok := vv.(float64); ok && f == sval.(float64) {
if isNotKey {
return false
}
continue
}
}
// key there but didn't match subkey value
if isNotKey { // that's what we want
continue
}
return false
}
// all subkeys matched
return true
}
// not a map[string]interface{} value, can't have subkeys
return false
}
// Generate map of key:value entries as map[string]string.
// 'kv' arguments are "name:value" pairs: attribute keys are designated with prepended hyphen, '-'.
// If len(kv) == 0, the return is (nil, nil).
func getSubKeyMap(kv ...string) (map[string]interface{}, error) {
if len(kv) == 0 {
return nil, nil
}
m := make(map[string]interface{}, 0)
for _, v := range kv {
vv := strings.Split(v, fieldSep)
switch len(vv) {
case 2:
m[vv[0]] = interface{}(vv[1])
case 3:
switch vv[2] {
case "string", "char", "text":
m[vv[0]] = interface{}(vv[1])
case "bool", "boolean":
// ParseBool treats "1"==true & "0"==false
b, err := strconv.ParseBool(vv[1])
if err != nil {
return nil, fmt.Errorf("can't convert subkey value to bool: %s", vv[1])
}
m[vv[0]] = interface{}(b)
case "float", "float64", "num", "number", "numeric":
f, err := strconv.ParseFloat(vv[1], 64)
if err != nil {
return nil, fmt.Errorf("can't convert subkey value to float: %s", vv[1])
}
m[vv[0]] = interface{}(f)
default:
return nil, fmt.Errorf("unknown subkey conversion spec: %s", v)
}
default:
return nil, fmt.Errorf("unknown subkey spec: %s", v)
}
}
return m, nil
}
// ------------------------------- END of valuesFor ... ----------------------------
// ----------------------- locate where a key value is in the tree -------------------
//----------------------------- find all paths to a key --------------------------------
// PathsForKey returns all paths through Map, 'mv', (in dot-notation) that terminate with the specified key.
// Results can be used with ValuesForPath.
func (mv Map) PathsForKey(key string) []string {
m := map[string]interface{}(mv)
breadbasket := make(map[string]bool, 0)
breadcrumbs := ""
hasKeyPath(breadcrumbs, m, key, breadbasket)
if len(breadbasket) == 0 {
return nil
}
// unpack map keys to return
res := make([]string, len(breadbasket))
var i int
for k := range breadbasket {
res[i] = k
i++
}
return res
}
// PathForKeyShortest extracts the shortest path from all possible paths - from PathsForKey() - in Map, 'mv'..
// Paths are strings using dot-notation.
func (mv Map) PathForKeyShortest(key string) string {
paths := mv.PathsForKey(key)
lp := len(paths)
if lp == 0 {
return ""
}
if lp == 1 {
return paths[0]
}
shortest := paths[0]
shortestLen := len(strings.Split(shortest, "."))
for i := 1; i < len(paths); i++ {
vlen := len(strings.Split(paths[i], "."))
if vlen < shortestLen {
shortest = paths[i]
shortestLen = vlen
}
}
return shortest
}
// hasKeyPath - if the map 'key' exists append it to KeyPath.path and increment KeyPath.depth
// This is really just a breadcrumber that saves all trails that hit the prescribed 'key'.
func hasKeyPath(crumbs string, iv interface{}, key string, basket map[string]bool) {
switch iv.(type) {
case map[string]interface{}:
vv := iv.(map[string]interface{})
if _, ok := vv[key]; ok {
// create a new breadcrumb, intialized with the one we have
var nbc string
if crumbs == "" {
nbc = key
} else {
nbc = crumbs + "." + key
}
basket[nbc] = true
}
// walk on down the path, key could occur again at deeper node
for k, v := range vv {
// create a new breadcrumb, intialized with the one we have
var nbc string
if crumbs == "" {
nbc = k
} else {
nbc = crumbs + "." + k
}
hasKeyPath(nbc, v, key, basket)
}
case []interface{}:
// crumb-trail doesn't change, pass it on
for _, v := range iv.([]interface{}) {
hasKeyPath(crumbs, v, key, basket)
}
}
}
var PathNotExistError = errors.New("Path does not exist")
// ValueForPath wraps ValuesFor Path and returns the first value returned.
// If no value is found it returns 'nil' and PathNotExistError.
func (mv Map) ValueForPath(path string) (interface{}, error) {
vals, err := mv.ValuesForPath(path)
if err != nil {
return nil, err
}
if len(vals) == 0 {
return nil, PathNotExistError
}
return vals[0], nil
}
// ValuesForPathString returns the first found value for the path as a string.
func (mv Map) ValueForPathString(path string) (string, error) {
vals, err := mv.ValuesForPath(path)
if err != nil {
return "", err
}
if len(vals) == 0 {
return "", errors.New("ValueForPath: path not found")
}
val := vals[0]
return fmt.Sprintf("%v", val), nil
}
// ValueOrEmptyForPathString returns the first found value for the path as a string.
// If the path is not found then it returns an empty string.
func (mv Map) ValueOrEmptyForPathString(path string) string {
str, _ := mv.ValueForPathString(path)
return str
}