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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgo/] [go/] [exp/] [norm/] [triegen.go] - Rev 747
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// Copyright 2011 The Go Authors. All rights reserved.// Use of this source code is governed by a BSD-style// license that can be found in the LICENSE file.// Trie table generator.// Used by make*tables tools to generate a go file with trie data structures// for mapping UTF-8 to a 16-bit value. All but the last byte in a UTF-8 byte// sequence are used to lookup offsets in the index table to be used for the// next byte. The last byte is used to index into a table with 16-bit values.package mainimport ("fmt""hash/crc32""log""unicode/utf8")const blockSize = 64const maxSparseEntries = 16// Intermediate trie structuretype trieNode struct {table [256]*trieNodevalue intb byteleaf bool}func newNode() *trieNode {return new(trieNode)}func (n trieNode) String() string {s := fmt.Sprint("trieNode{table: { non-nil at index: ")for i, v := range n.table {if v != nil {s += fmt.Sprintf("%d, ", i)}}s += fmt.Sprintf("}, value:%#x, b:%#x leaf:%v}", n.value, n.b, n.leaf)return s}func (n trieNode) isInternal() bool {internal := truefor i := 0; i < 256; i++ {if nn := n.table[i]; nn != nil {if !internal && !nn.leaf {log.Fatalf("triegen: isInternal: node contains both leaf and non-leaf children (%v)", n)}internal = internal && !nn.leaf}}return internal}func (n trieNode) mostFrequentStride() int {counts := make(map[int]int)v := 0for _, t := range n.table[0x80 : 0x80+blockSize] {if t != nil {if stride := t.value - v; v != 0 && stride >= 0 {counts[stride]++}v = t.value} else {v = 0}}var maxs, maxc intfor stride, cnt := range counts {if cnt > maxc || (cnt == maxc && stride < maxs) {maxs, maxc = stride, cnt}}return maxs}func (n trieNode) countSparseEntries() int {stride := n.mostFrequentStride()var count, v intfor _, t := range n.table[0x80 : 0x80+blockSize] {tv := 0if t != nil {tv = t.value}if tv-v != stride {if tv != 0 {count++}}v = tv}return count}func (n *trieNode) insert(r rune, value uint16) {var p [utf8.UTFMax]bytesz := utf8.EncodeRune(p[:], r)for i := 0; i < sz; i++ {if n.leaf {log.Fatalf("triegen: insert: node (%#v) should not be a leaf", n)}nn := n.table[p[i]]if nn == nil {nn = newNode()nn.b = p[i]n.table[p[i]] = nn}n = nn}n.value = int(value)n.leaf = true}type nodeIndex struct {lookupBlocks []*trieNodevalueBlocks []*trieNodesparseBlocks []*trieNodesparseOffset []uint16sparseCount intlookupBlockIdx map[uint32]intvalueBlockIdx map[uint32]int}func newIndex() *nodeIndex {index := &nodeIndex{}index.lookupBlocks = make([]*trieNode, 0)index.valueBlocks = make([]*trieNode, 0)index.sparseBlocks = make([]*trieNode, 0)index.sparseOffset = make([]uint16, 1)index.lookupBlockIdx = make(map[uint32]int)index.valueBlockIdx = make(map[uint32]int)return index}func computeOffsets(index *nodeIndex, n *trieNode) int {if n.leaf {return n.value}hasher := crc32.New(crc32.MakeTable(crc32.IEEE))// We only index continuation bytes.for i := 0; i < blockSize; i++ {v := 0if nn := n.table[0x80+i]; nn != nil {v = computeOffsets(index, nn)}hasher.Write([]byte{uint8(v >> 8), uint8(v)})}h := hasher.Sum32()if n.isInternal() {v, ok := index.lookupBlockIdx[h]if !ok {v = len(index.lookupBlocks)index.lookupBlocks = append(index.lookupBlocks, n)index.lookupBlockIdx[h] = v}n.value = v} else {v, ok := index.valueBlockIdx[h]if !ok {if c := n.countSparseEntries(); c > maxSparseEntries {v = len(index.valueBlocks)index.valueBlocks = append(index.valueBlocks, n)index.valueBlockIdx[h] = v} else {v = -len(index.sparseOffset)index.sparseBlocks = append(index.sparseBlocks, n)index.sparseOffset = append(index.sparseOffset, uint16(index.sparseCount))index.sparseCount += c + 1index.valueBlockIdx[h] = v}}n.value = v}return n.value}func printValueBlock(nr int, n *trieNode, offset int) {boff := nr * blockSizefmt.Printf("\n// Block %#x, offset %#x", nr, boff)var printnewline boolfor i := 0; i < blockSize; i++ {if i%6 == 0 {printnewline = true}v := 0if nn := n.table[i+offset]; nn != nil {v = nn.value}if v != 0 {if printnewline {fmt.Printf("\n")printnewline = false}fmt.Printf("%#04x:%#04x, ", boff+i, v)}}}func printSparseBlock(nr int, n *trieNode) {boff := -n.valuefmt.Printf("\n// Block %#x, offset %#x", nr, boff)v := 0//stride := f(n)stride := n.mostFrequentStride()c := n.countSparseEntries()fmt.Printf("\n{value:%#04x,lo:%#02x},", stride, uint8(c))for i, nn := range n.table[0x80 : 0x80+blockSize] {nv := 0if nn != nil {nv = nn.value}if nv-v != stride {if v != 0 {fmt.Printf(",hi:%#02x},", 0x80+i-1)}if nv != 0 {fmt.Printf("\n{value:%#04x,lo:%#02x", nv, nn.b)}}v = nv}if v != 0 {fmt.Printf(",hi:%#02x},", 0x80+blockSize-1)}}func printLookupBlock(nr int, n *trieNode, offset, cutoff int) {boff := nr * blockSizefmt.Printf("\n// Block %#x, offset %#x", nr, boff)var printnewline boolfor i := 0; i < blockSize; i++ {if i%8 == 0 {printnewline = true}v := 0if nn := n.table[i+offset]; nn != nil {v = nn.value}if v != 0 {if v < 0 {v = -v - 1 + cutoff}if printnewline {fmt.Printf("\n")printnewline = false}fmt.Printf("%#03x:%#02x, ", boff+i, v)}}}// printTables returns the size in bytes of the generated tables.func (t *trieNode) printTables(name string) int {index := newIndex()// Values for 7-bit ASCII are stored in first two block, followed by nil block.index.valueBlocks = append(index.valueBlocks, nil, nil, nil)// First byte of multi-byte UTF-8 codepoints are indexed in 4th block.index.lookupBlocks = append(index.lookupBlocks, nil, nil, nil, nil)// Index starter bytes of multi-byte UTF-8.for i := 0xC0; i < 0x100; i++ {if t.table[i] != nil {computeOffsets(index, t.table[i])}}nv := len(index.valueBlocks) * blockSizefmt.Printf("// %sValues: %d entries, %d bytes\n", name, nv, nv*2)fmt.Printf("// Block 2 is the null block.\n")fmt.Printf("var %sValues = [%d]uint16 {", name, nv)printValueBlock(0, t, 0)printValueBlock(1, t, 64)printValueBlock(2, newNode(), 0)for i := 3; i < len(index.valueBlocks); i++ {printValueBlock(i, index.valueBlocks[i], 0x80)}fmt.Print("\n}\n\n")ls := len(index.sparseBlocks)fmt.Printf("// %sSparseOffset: %d entries, %d bytes\n", name, ls, ls*2)fmt.Printf("var %sSparseOffset = %#v\n\n", name, index.sparseOffset[1:])ns := index.sparseCountfmt.Printf("// %sSparseValues: %d entries, %d bytes\n", name, ns, ns*4)fmt.Printf("var %sSparseValues = [%d]valueRange {", name, ns)for i, n := range index.sparseBlocks {printSparseBlock(i, n)}fmt.Print("\n}\n\n")cutoff := len(index.valueBlocks)ni := len(index.lookupBlocks) * blockSizefmt.Printf("// %sLookup: %d bytes\n", name, ni)fmt.Printf("// Block 0 is the null block.\n")fmt.Printf("var %sLookup = [%d]uint8 {", name, ni)printLookupBlock(0, newNode(), 0, cutoff)printLookupBlock(1, newNode(), 0, cutoff)printLookupBlock(2, newNode(), 0, cutoff)printLookupBlock(3, t, 0xC0, cutoff)for i := 4; i < len(index.lookupBlocks); i++ {printLookupBlock(i, index.lookupBlocks[i], 0x80, cutoff)}fmt.Print("\n}\n\n")fmt.Printf("var %sTrie = trie{ %sLookup[:], %sValues[:], %sSparseValues[:], %sSparseOffset[:], %d}\n\n",name, name, name, name, name, cutoff)return nv*2 + ns*4 + ni + ls*2}