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exp/locale/collate: changed API of Builder to be more convenient

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for dealing with CLDR files:
- Add now taxes a list of indexes of colelems that are variables. Checking and
  handling is now done by the Builder.  VariableTop is now also properly generated
  using the Build method.
- Introduced separate Builder, called Tailoring, for creating tailorings of root
  table.  This clearly separates the functionality for building a table based on
  weights (the allkeys* files) versus tables based on LDML XML files.
- Tailorings are now added by two calls instead of one: SetAnchor and Insert.
  This more closely reflects the structure of LDML side and simplifies the
  implementation of both the client and library side.  It also preserves
  some information that is otherwise hard to recover for the Builder.
- Allow the LDML XML element extend to be passed to Insert.  This simplifies
  both client and library implementation.

R=r
CC=golang-dev
https://golang.org/cl/6454061
This commit is contained in:
Marcel van Lohuizen 2012-08-03 09:01:21 +02:00
parent b9b29ce2ba
commit 89d40b911c
10 changed files with 166 additions and 71 deletions
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144
src/pkg/exp/locale/collate/build/builder.go
View File

@ -12,6 +12,7 @@ import (
"log"
"sort"
"strings"
"unicode/utf8"
)
// TODO: optimizations:
@ -22,7 +23,11 @@ import (
// - trie valueBlocks are currently 100K. There are a lot of sparse blocks
// and many consecutive values with the same stride. This can be further
// compacted.
// - compress secondary weights into 8 bits.
// - Compress secondary weights into 8 bits.
// - Some LDML specs specify a context element. Currently we simply concatenate
// those. Context can be implemented using the contraction trie. If Builder
// could analyze and detect when using a context makes sense, there is no
// need to expose this construct in the API.
// entry is used to keep track of a single entry in the collation element table
// during building. Examples of entries can be found in the Default Unicode
@ -60,18 +65,30 @@ func (e *entry) contractionStarter() bool {
return e.contractionHandle.n != 0
}
// A Builder builds collation tables. It can generate both the root table and
// locale-specific tables defined as tailorings to the root table.
// The typical use case is to specify the data for the root table and all locale-specific
// tables using Add and AddTailoring before making any call to Build. This allows
// Builder to ensure that a root table can support tailorings for each locale.
// A Builder builds a root collation table. The user must specify the
// collation elements for each entry. A common use will be to base the weights
// on those specified in the allkeys* file as provided by the UCA or CLDR.
type Builder struct {
index *trieBuilder
locale []*Tailoring
entryMap map[string]*entry
entry []*entry
t *table
err error
built bool
minNonVar int // lowest primary recorded for a variable
varTop int // highest primary recorded for a non-variable
}
// A Tailoring builds a collation table based on another collation table.
// The table is defined by specifying tailorings to the underlying table.
// See http://unicode.org/reports/tr35/ for an overview of tailoring
// collation tables. The CLDR contains pre-defined tailorings for a variety
// of languages (See http://www.unicode.org/Public/cldr/2.0.1/core.zip.)
type Tailoring struct {
id string
// TODO: implement.
}
// NewBuilder returns a new Builder.
@ -83,14 +100,26 @@ func NewBuilder() *Builder {
return b
}
// Add adds an entry for the root collation element table, mapping
// Tailoring returns a Tailoring for the given locale. One should
// have completed all calls to Add before calling Tailoring.
func (b *Builder) Tailoring(locale string) *Tailoring {
t := &Tailoring{
id: locale,
}
b.locale = append(b.locale, t)
return t
}
// Add adds an entry to the collation element table, mapping
// a slice of runes to a sequence of collation elements.
// A collation element is specified as list of weights: []int{primary, secondary, ...}.
// The entries are typically obtained from a collation element table
// as defined in http://www.unicode.org/reports/tr10/#Data_Table_Format.
// Note that the collation elements specified by colelems are only used
// as a guide. The actual weights generated by Builder may differ.
func (b *Builder) Add(str []rune, colelems [][]int) error {
// The argument variables is a list of indices into colelems that should contain
// a value for each colelem that is a variable. (See the reference above.)
func (b *Builder) Add(str []rune, colelems [][]int, variables []int) error {
e := &entry{
runes: make([]rune, len(str)),
elems: make([][]int, len(colelems)),
@ -113,6 +142,29 @@ func (b *Builder) Add(str []rune, colelems [][]int) error {
e.elems[i] = append(e.elems[i], ce[0])
}
}
for i, ce := range e.elems {
isvar := false
for _, j := range variables {
if i == j {
isvar = true
}
}
if isvar {
if ce[0] >= b.minNonVar && b.minNonVar > 0 {
return fmt.Errorf("primary value %X of variable is larger than the smallest non-variable %X", ce[0], b.minNonVar)
}
if ce[0] > b.varTop {
b.varTop = ce[0]
}
} else if ce[0] > 0 {
if ce[0] <= b.varTop {
return fmt.Errorf("primary value %X of non-variable is smaller than the highest variable %X", ce[0], b.varTop)
}
if b.minNonVar == 0 || ce[0] < b.minNonVar {
b.minNonVar = ce[0]
}
}
}
elems, err := convertLargeWeights(e.elems)
if err != nil {
return err
@ -123,13 +175,57 @@ func (b *Builder) Add(str []rune, colelems [][]int) error {
return nil
}
// AddTailoring defines a tailoring x <_level y for the given locale.
// For example, AddTailoring("se", "z", "ä", Primary) sorts "ä" after "z"
// at the primary level for Swedish. AddTailoring("de", "ue", "ü", Secondary)
// sorts "ü" after "ue" at the secondary level for German.
// SetAnchor sets the point after which elements passed in subsequent calls to
// Insert will be inserted. It is equivalent to the reset directive in an LDML
// specification. See Insert for an example.
// SetAnchor supports the following logical reset positions:
// <first_tertiary_ignorable/>, <last_teriary_ignorable/>, <first_primary_ignorable/>,
// and <last_non_ignorable/>.
func (t *Tailoring) SetAnchor(anchor string) error {
// TODO: implement.
return nil
}
// SetAnchorBefore is similar to SetAnchor, except that subsequent calls to
// Insert will insert entries before the anchor.
func (t *Tailoring) SetAnchorBefore(anchor string) error {
// TODO: implement.
return nil
}
// Insert sets the ordering of str relative to the entry set by the previous
// call to SetAnchor or Insert. The argument extend corresponds
// to the extend elements as defined in LDML. A non-empty value for extend
// will cause the collation elements corresponding to extend to be appended
// to the collation elements generated for the entry added by Insert.
// This has the same net effect as sorting str after the string anchor+extend.
// See http://www.unicode.org/reports/tr10/#Tailoring_Example for details
// on parametric tailoring.
func (b *Builder) AddTailoring(locale, x, y string, l collate.Level) error {
// on parametric tailoring and http://unicode.org/reports/tr35/#Collation_Elements
// for full details on LDML.
//
// Examples: create a tailoring for Swedish, where "ä" is ordered after "z"
// at the primary sorting level:
// t := b.Tailoring("se")
// t.SetAnchor("z")
// t.Insert(collate.Primary, "ä", "")
// Order "ü" after "ue" at the secondary sorting level:
// t.SetAnchor("ue")
// t.Insert(collate.Secondary, "ü","")
// or
// t.SetAnchor("u")
// t.Insert(collate.Secondary, "ü", "e")
// Order "q" afer "ab" at the secondary level and "Q" after "q"
// at the tertiary level:
// t.SetAnchor("ab")
// t.Insert(collate.Secondary, "q", "")
// t.Insert(collate.Tertiary, "Q", "")
// Order "b" before "a":
// t.SetAnchorBefore("a")
// t.Insert(collate.Primary, "b", "")
// Order "0" after the last primary ignorable:
// t.SetAnchor("<last_primary_ignorable/>")
// t.Insert(collate.Primary, "0", "")
func (t *Tailoring) Insert(level collate.Level, str, extend string) error {
// TODO: implement.
return nil
}
@ -189,7 +285,10 @@ func (b *Builder) error(e error) {
func (b *Builder) build() (*table, error) {
if !b.built {
b.built = true
b.t = &table{}
b.t = &table{
maxContractLen: utf8.UTFMax,
variableTop: uint32(b.varTop),
}
b.simplify()
b.processExpansions() // requires simplify
@ -202,18 +301,23 @@ func (b *Builder) build() (*table, error) {
return b.t, nil
}
// Build builds a Collator for the given locale. To build the root table, set locale to "".
func (b *Builder) Build(locale string) (*collate.Collator, error) {
// Build builds the root Collator.
func (b *Builder) Build() (*collate.Collator, error) {
t, err := b.build()
if err != nil {
return nil, err
}
// TODO: support multiple locales
return collate.Init(t), nil
}
// Print prints all tables to a Go file that can be included in
// the Collate package.
// Build builds a Collator for Tailoring t.
func (t *Tailoring) Build() (*collate.Collator, error) {
// TODO: implement.
return nil, nil
}
// Print prints the tables for b and all its Tailorings as a Go file
// that can be included in the Collate package.
func (b *Builder) Print(w io.Writer) (int, error) {
t, err := b.build()
if err != nil {

2
src/pkg/exp/locale/collate/build/builder_test.go
View File

@ -48,7 +48,7 @@ type ducetElem struct {
func newBuilder(t *testing.T, ducet []ducetElem) *Builder {
b := NewBuilder()
for _, e := range ducet {
if err := b.Add([]rune(e.str), e.ces); err != nil {
if err := b.Add([]rune(e.str), e.ces, nil); err != nil {
t.Errorf(err.Error())
}
}

6
src/pkg/exp/locale/collate/build/table.go
View File

@ -23,6 +23,7 @@ type table struct {
contractTries contractTrieSet
contractElem []uint32
maxContractLen int
variableTop uint32
}
func (t *table) TrieIndex() []uint16 {
@ -53,6 +54,10 @@ func (t *table) MaxContractLen() int {
return t.maxContractLen
}
func (t *table) VariableTop() uint32 {
return t.variableTop
}
// print writes the table as Go compilable code to w. It prefixes the
// variable names with name. It returns the number of bytes written
// and the size of the resulting table.
@ -78,6 +83,7 @@ func (t *table) fprint(w io.Writer, name string) (n, size int, err error) {
p(",\n")
p("%sContractElem[:],\n", name)
p("%d,\n", t.maxContractLen)
p("0x%X,\n", t.variableTop)
p("}\n\n")
// Write arrays needed for the structure.

5
src/pkg/exp/locale/collate/collate.go
View File

@ -55,9 +55,6 @@ const (
// Collator provides functionality for comparing strings for a given
// collation order.
type Collator struct {
// See SetVariableTop.
variableTop uint32
// Strength sets the maximum level to use in comparison.
Strength Level
@ -178,7 +175,7 @@ func (c *Collator) KeyFromString(buf *Buffer, str string) []byte {
}
func (c *Collator) key(buf *Buffer, w []weights) []byte {
processWeights(c.Alternate, c.variableTop, w)
processWeights(c.Alternate, c.t.variableTop, w)
kn := len(buf.key)
c.keyFromElems(buf, w)
return buf.key[kn:]

10
src/pkg/exp/locale/collate/export.go
View File

@ -4,6 +4,8 @@
package collate
import "exp/norm"
// Init is used by type Builder in exp/locale/collate/build/
// to create Collator instances. It is for internal use only.
func Init(data interface{}) *Collator {
@ -21,7 +23,12 @@ func Init(data interface{}) *Collator {
t.contractTries = init.ContractTries()
t.contractElem = init.ContractElems()
t.maxContractLen = init.MaxContractLen()
return &Collator{t: t}
t.variableTop = init.VariableTop()
return &Collator{
Strength: Quaternary,
f: norm.NFD,
t: t,
}
}
type tableInitializer interface {
@ -32,4 +39,5 @@ type tableInitializer interface {
ContractTries() []struct{ l, h, n, i uint8 }
ContractElems() []uint32
MaxContractLen() int
VariableTop() uint32
}

13
src/pkg/exp/locale/collate/export_test.go
View File

@ -7,7 +7,6 @@ package collate
// Export for testing.
import (
"exp/norm"
"fmt"
)
@ -63,18 +62,14 @@ func (t *Table) AppendNext(s []byte) ([]Weights, int) {
}
func SetTop(c *Collator, top int) {
c.variableTop = uint32(top)
}
func InitCollator(c *Collator) {
c.Strength = Quaternary
c.f = norm.NFD
c.t.maxContractLen = 30
if c.t == nil {
c.t = &table{}
}
c.t.variableTop = uint32(top)
}
func GetColElems(c *Collator, buf *Buffer, str []byte) []Weights {
buf.ResetKeys()
InitCollator(c)
c.getColElems(buf, str)
return convertToWeights(buf.ce)
}

39
src/pkg/exp/locale/collate/maketables.go
View File

@ -33,7 +33,7 @@ var localFiles = flag.Bool("local",
false,
"data files have been copied to the current directory; for debugging only")
func failonerror(e error) {
func failOnError(e error) {
if e != nil {
log.Fatal(e)
}
@ -62,10 +62,9 @@ func openReader(url string) (io.ReadCloser, error) {
// parseUCA parses a Default Unicode Collation Element Table of the format
// specified in http://www.unicode.org/reports/tr10/#File_Format.
// It returns the variable top.
func parseUCA(builder *build.Builder) int {
maxVar, minNonVar := 0, 1<<30
func parseUCA(builder *build.Builder) {
r, err := openReader(*ducet)
failonerror(err)
failOnError(err)
defer r.Close()
input := bufio.NewReader(r)
colelem := regexp.MustCompile(`\[([.*])([0-9A-F.]+)\]`)
@ -109,32 +108,25 @@ func parseUCA(builder *build.Builder) int {
lhs = append(lhs, rune(convHex(i, v)))
}
var n int
var vars []int
rhs := [][]int{}
for _, m := range colelem.FindAllStringSubmatch(part[1], -1) {
for i, m := range colelem.FindAllStringSubmatch(part[1], -1) {
n += len(m[0])
elem := []int{}
for _, h := range strings.Split(m[2], ".") {
elem = append(elem, convHex(i, h))
}
if p := elem[0]; m[1] == "*" {
if p > maxVar {
maxVar = p
}
} else if p > 0 && p < minNonVar {
minNonVar = p
if m[1] == "*" {
vars = append(vars, i)
}
rhs = append(rhs, elem)
}
if len(part[1]) < n+3 || part[1][n+1] != '#' {
log.Fatalf("%d: expected comment; found %s", i, part[1][n:])
}
builder.Add(lhs, rhs)
failOnError(builder.Add(lhs, rhs, vars))
}
}
if maxVar >= minNonVar {
log.Fatalf("found maxVar > minNonVar (%d > %d)", maxVar, minNonVar)
}
return maxVar
}
func convHex(line int, s string) int {
@ -146,11 +138,10 @@ func convHex(line int, s string) int {
}
// TODO: move this functionality to exp/locale/collate/build.
func printCollators(c *collate.Collator, vartop int) {
func printCollators(c *collate.Collator) {
const name = "Root"
fmt.Printf("var _%s = Collator{\n", name)
fmt.Printf("\tStrength: %v,\n", c.Strength)
fmt.Printf("\tvariableTop: 0x%X,\n", vartop)
fmt.Printf("\tf: norm.NFD,\n")
fmt.Printf("\tt: &%sTable,\n", strings.ToLower(name))
fmt.Printf("}\n\n")
@ -162,9 +153,9 @@ func printCollators(c *collate.Collator, vartop int) {
func main() {
flag.Parse()
b := build.NewBuilder()
vartop := parseUCA(b)
_, err := b.Build("")
failonerror(err)
parseUCA(b)
c, err := b.Build()
failOnError(err)
fmt.Println("// Generated by running")
fmt.Printf("// maketables --ducet=%s\n", *ducet)
@ -176,10 +167,8 @@ func main() {
fmt.Println(`import "exp/norm"`)
fmt.Println("")
c := &collate.Collator{}
c.Strength = collate.Quaternary
printCollators(c, vartop)
printCollators(c)
_, err = b.Print(os.Stdout)
failonerror(err)
failOnError(err)
}

1
src/pkg/exp/locale/collate/table.go
View File

@ -20,6 +20,7 @@ type table struct {
contractTries contractTrieSet
contractElem []uint32
maxContractLen int
variableTop uint32
}
// appendNext appends the weights corresponding to the next rune or

9
src/pkg/exp/locale/collate/table_test.go
View File

@ -42,14 +42,9 @@ func pt(p, t int) []int {
func makeTable(in []input) (*collate.Collator, error) {
b := build.NewBuilder()
for _, r := range in {
b.Add([]rune(r.str), r.ces)
b.Add([]rune(r.str), r.ces, nil)
}
c, err := b.Build("")
if c == nil {
return nil, err
}
collate.InitCollator(c)
return c, err
return b.Build()
}
// modSeq holds a seqeunce of modifiers in increasing order of CCC long enough

8
src/pkg/exp/locale/collate/tables.go
View File

@ -8,10 +8,9 @@ package collate
import "exp/norm"
var _Root = Collator{
Strength: 3,
variableTop: 0x1560,
f: norm.NFD,
t: &rootTable,
Strength: 3,
f: norm.NFD,
t: &rootTable,
}
var (
@ -24,6 +23,7 @@ var rootTable = table{
contractTrieSet(rootCTEntries[:]),
rootContractElem[:],
9,
0x1560,
}
// rootExpandElem: 4630 entries, 18520 bytes