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statements.go
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statements.go
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package main
import (
"encoding/json"
"fmt"
"io"
"reflect"
"strconv"
"strings"
"github.com/pkg/errors"
)
// A statement is a slice of tokens representing an assignment statement.
// An assignment statement is something like:
//
// json.city = "Leeds";
//
// Where 'json', '.', 'city', '=', '"Leeds"' and ';' are discrete tokens.
// Statements are stored as tokens to make sorting more efficient, and so
// that the same type can easily be used when gronning and ungronning.
type statement []token
// String returns the string form of a statement rather than the
// underlying slice of tokens
func (s statement) String() string {
out := make([]string, 0, len(s)+2)
for _, t := range s {
out = append(out, t.format())
}
return strings.Join(out, "")
}
// colorString returns the string form of a statement with ASCII color codes
func (s statement) colorString() string {
out := make([]string, 0, len(s)+2)
for _, t := range s {
out = append(out, t.formatColor())
}
return strings.Join(out, "")
}
// a statementconv converts a statement to string
type statementconv func(s statement) string
// statementconv variant of statement.String
func statementToString(s statement) string {
return s.String()
}
// statementconv variant of statement.colorString
func statementToColorString(s statement) string {
return s.colorString()
}
// withBare returns a copy of a statement with a new bare
// word token appended to it
func (s statement) withBare(k string) statement {
new := make(statement, len(s), len(s)+2)
copy(new, s)
return append(
new,
token{".", typDot},
token{k, typBare},
)
}
// jsonify converts an assignment statement to a JSON representation
func (s statement) jsonify() (statement, error) {
// If m is the number of keys occurring in the left hand side
// of s, then len(s) is in between 2*m+4 and 3*m+4. The resultant
// statement j (carrying the JSON representation) is always 2*m+5
// long. So len(s)+1 ≥ 2*m+5 = len(j). Therefore an initaial
// allocation of j with capacity len(s)+1 will allow us to carry
// through without reallocation.
j := make(statement, 0, len(s)+1)
if len(s) < 4 || s[0].typ != typBare || s[len(s)-3].typ != typEquals ||
s[len(s)-1].typ != typSemi {
return nil, errors.New("non-assignment statement")
}
j = append(j, token{"[", typLBrace})
j = append(j, token{"[", typLBrace})
for _, t := range s[1 : len(s)-3] {
switch t.typ {
case typNumericKey, typQuotedKey:
j = append(j, t)
j = append(j, token{",", typComma})
case typBare:
j = append(j, token{quoteString(t.text), typQuotedKey})
j = append(j, token{",", typComma})
}
}
if j[len(j)-1].typ == typComma {
j = j[:len(j)-1]
}
j = append(j, token{"]", typLBrace})
j = append(j, token{",", typComma})
j = append(j, s[len(s)-2])
j = append(j, token{"]", typLBrace})
return j, nil
}
// withQuotedKey returns a copy of a statement with a new
// quoted key token appended to it
func (s statement) withQuotedKey(k string) statement {
new := make(statement, len(s), len(s)+3)
copy(new, s)
return append(
new,
token{"[", typLBrace},
token{quoteString(k), typQuotedKey},
token{"]", typRBrace},
)
}
// withNumericKey returns a copy of a statement with a new
// numeric key token appended to it
func (s statement) withNumericKey(k int) statement {
new := make(statement, len(s), len(s)+3)
copy(new, s)
return append(
new,
token{"[", typLBrace},
token{strconv.Itoa(k), typNumericKey},
token{"]", typRBrace},
)
}
// statements is a list of assignment statements.
// E.g statement: json.foo = "bar";
type statements []statement
// addWithValue takes a statement representing a path, copies it,
// adds a value token to the end of the statement and appends
// the new statement to the list of statements
func (ss *statements) addWithValue(path statement, value token) {
s := make(statement, len(path), len(path)+3)
copy(s, path)
s = append(s, token{"=", typEquals}, value, token{";", typSemi})
*ss = append(*ss, s)
}
// add appends a new complete statement to list of statements
func (ss *statements) add(s statement) {
*ss = append(*ss, s)
}
// Len returns the number of statements for sort.Sort
func (ss statements) Len() int {
return len(ss)
}
// Swap swaps two statements for sort.Sort
func (ss statements) Swap(i, j int) {
ss[i], ss[j] = ss[j], ss[i]
}
// a statementmaker is a function that makes a statement
// from string
type statementmaker func(str string) (statement, error)
// statementFromString takes statement string, lexes it and returns
// the corresponding statement
func statementFromString(str string) statement {
l := newLexer(str)
s := l.lex()
return s
}
// statementmaker variant of statementFromString
func statementFromStringMaker(str string) (statement, error) {
return statementFromString(str), nil
}
// statementFromJson returns statement encoded by
// JSON specification
func statementFromJSONSpec(str string) (statement, error) {
var a []interface{}
var ok bool
var v interface{}
var s statement
var t tokenTyp
var nstr string
var nbuf []byte
err := json.Unmarshal([]byte(str), &a)
if err != nil {
return nil, err
}
if len(a) != 2 {
goto out
}
v = a[1]
a, ok = a[0].([]interface{})
if !ok {
goto out
}
// We'll append one initial token, then 3 tokens for each element of a,
// then 3 closing tokens, that's alltogether 3*len(a)+4.
s = make(statement, 0, 3*len(a)+4)
s = append(s, token{"json", typBare})
for _, e := range a {
s = append(s, token{"[", typLBrace})
switch e := e.(type) {
case string:
s = append(s, token{quoteString(e), typQuotedKey})
case float64:
nbuf, err = json.Marshal(e)
if err != nil {
return nil, errors.Wrap(err, "JSON internal error")
}
nstr = fmt.Sprintf("%s", nbuf)
s = append(s, token{nstr, typNumericKey})
default:
ok = false
goto out
}
s = append(s, token{"]", typRBrace})
}
s = append(s, token{"=", typEquals})
switch v := v.(type) {
case bool:
if v {
t = typTrue
} else {
t = typFalse
}
case float64:
t = typNumber
case string:
t = typString
case []interface{}:
ok = (len(v) == 0)
if !ok {
goto out
}
t = typEmptyArray
case map[string]interface{}:
ok = (len(v) == 0)
if !ok {
goto out
}
t = typEmptyObject
default:
ok = (v == nil)
if !ok {
goto out
}
t = typNull
}
nbuf, err = json.Marshal(v)
if err != nil {
return nil, errors.Wrap(err, "JSON internal error")
}
nstr = fmt.Sprintf("%s", nbuf)
s = append(s, token{nstr, t})
s = append(s, token{";", typSemi})
out:
if !ok {
return nil, errors.New("invalid JSON layout")
}
return s, nil
}
// ungron turns statements into a proper datastructure
func (ss statements) toInterface() (interface{}, error) {
// Get all the individually parsed statements
var parsed []interface{}
for _, s := range ss {
u, err := ungronTokens(s)
switch err.(type) {
case nil:
// no problem :)
case errRecoverable:
continue
default:
return nil, errors.Wrapf(err, "ungron failed for `%s`", s)
}
parsed = append(parsed, u)
}
if len(parsed) == 0 {
return nil, fmt.Errorf("no statements were parsed")
}
merged := parsed[0]
for _, p := range parsed[1:] {
m, err := recursiveMerge(merged, p)
if err != nil {
return nil, errors.Wrap(err, "failed to merge statements")
}
merged = m
}
return merged, nil
}
// Less compares two statements for sort.Sort
// Implements a natural sort to keep array indexes in order
func (ss statements) Less(a, b int) bool {
// ss[a] and ss[b] are both slices of tokens. The first
// thing we need to do is find the first token (if any)
// that differs, then we can use that token to decide
// if ss[a] or ss[b] should come first in the sort.
diffIndex := -1
for i := range ss[a] {
if len(ss[b]) < i+1 {
// b must be shorter than a, so it
// should come first
return false
}
// The tokens match, so just carry on
if ss[a][i] == ss[b][i] {
continue
}
// We've found a difference
diffIndex = i
break
}
// If diffIndex is still -1 then the only difference must be
// that ss[b] is longer than ss[a], so ss[a] should come first
if diffIndex == -1 {
return true
}
// Get the tokens that differ
ta := ss[a][diffIndex]
tb := ss[b][diffIndex]
// An equals always comes first
if ta.typ == typEquals {
return true
}
if tb.typ == typEquals {
return false
}
// If both tokens are numeric keys do an integer comparison
if ta.typ == typNumericKey && tb.typ == typNumericKey {
ia, _ := strconv.Atoi(ta.text)
ib, _ := strconv.Atoi(tb.text)
return ia < ib
}
// If neither token is a number, just do a string comparison
if ta.typ != typNumber || tb.typ != typNumber {
return ta.text < tb.text
}
// We have two numbers to compare so turn them into json.Number
// for comparison
na, _ := json.Number(ta.text).Float64()
nb, _ := json.Number(tb.text).Float64()
return na < nb
}
// Contains searches the statements for a given statement
// Mostly to make testing things easier
func (ss statements) Contains(search statement) bool {
for _, i := range ss {
if reflect.DeepEqual(i, search) {
return true
}
}
return false
}
// statementsFromJSON takes an io.Reader containing JSON
// and returns statements or an error on failure
func statementsFromJSON(r io.Reader, prefix statement) (statements, error) {
var top interface{}
d := json.NewDecoder(r)
d.UseNumber()
err := d.Decode(&top)
if err != nil {
return nil, err
}
ss := make(statements, 0, 32)
ss.fill(prefix, top)
return ss, nil
}
// fill takes a prefix statement and some value and recursively fills
// the statement list using that value
func (ss *statements) fill(prefix statement, v interface{}) {
// Add a statement for the current prefix and value
ss.addWithValue(prefix, valueTokenFromInterface(v))
// Recurse into objects and arrays
switch vv := v.(type) {
case map[string]interface{}:
// It's an object
for k, sub := range vv {
if validIdentifier(k) {
ss.fill(prefix.withBare(k), sub)
} else {
ss.fill(prefix.withQuotedKey(k), sub)
}
}
case []interface{}:
// It's an array
for k, sub := range vv {
ss.fill(prefix.withNumericKey(k), sub)
}
}
}