| // Copyright 2015 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. |
| |
| package colltab |
| |
| // An Iter incrementally converts chunks of the input text to collation |
| // elements, while ensuring that the collation elements are in normalized order |
| // (that is, they are in the order as if the input text were normalized first). |
| type Iter struct { |
| Weighter Weighter |
| Elems []Elem |
| // N is the number of elements in Elems that will not be reordered on |
| // subsequent iterations, N <= len(Elems). |
| N int |
| |
| bytes []byte |
| str string |
| // Because the Elems buffer may contain collation elements that are needed |
| // for look-ahead, we need two positions in the text (bytes or str): one for |
| // the end position in the text for the current iteration and one for the |
| // start of the next call to appendNext. |
| pEnd int // end position in text corresponding to N. |
| pNext int // pEnd <= pNext. |
| } |
| |
| // Reset sets the position in the current input text to p and discards any |
| // results obtained so far. |
| func (i *Iter) Reset(p int) { |
| i.Elems = i.Elems[:0] |
| i.N = 0 |
| i.pEnd = p |
| i.pNext = p |
| } |
| |
| // Len returns the length of the input text. |
| func (i *Iter) Len() int { |
| if i.bytes != nil { |
| return len(i.bytes) |
| } |
| return len(i.str) |
| } |
| |
| // Discard removes the collation elements up to N. |
| func (i *Iter) Discard() { |
| // TODO: change this such that only modifiers following starters will have |
| // to be copied. |
| i.Elems = i.Elems[:copy(i.Elems, i.Elems[i.N:])] |
| i.N = 0 |
| } |
| |
| // End returns the end position of the input text for which Next has returned |
| // results. |
| func (i *Iter) End() int { |
| return i.pEnd |
| } |
| |
| // SetInput resets i to input s. |
| func (i *Iter) SetInput(s []byte) { |
| i.bytes = s |
| i.str = "" |
| i.Reset(0) |
| } |
| |
| // SetInputString resets i to input s. |
| func (i *Iter) SetInputString(s string) { |
| i.str = s |
| i.bytes = nil |
| i.Reset(0) |
| } |
| |
| func (i *Iter) done() bool { |
| return i.pNext >= len(i.str) && i.pNext >= len(i.bytes) |
| } |
| |
| func (i *Iter) appendNext() bool { |
| if i.done() { |
| return false |
| } |
| var sz int |
| if i.bytes == nil { |
| i.Elems, sz = i.Weighter.AppendNextString(i.Elems, i.str[i.pNext:]) |
| } else { |
| i.Elems, sz = i.Weighter.AppendNext(i.Elems, i.bytes[i.pNext:]) |
| } |
| if sz == 0 { |
| sz = 1 |
| } |
| i.pNext += sz |
| return true |
| } |
| |
| // Next appends Elems to the internal array. On each iteration, it will either |
| // add starters or modifiers. In the majority of cases, an Elem with a primary |
| // value > 0 will have a CCC of 0. The CCC values of collation elements are also |
| // used to detect if the input string was not normalized and to adjust the |
| // result accordingly. |
| func (i *Iter) Next() bool { |
| if i.N == len(i.Elems) && !i.appendNext() { |
| return false |
| } |
| |
| // Check if the current segment starts with a starter. |
| prevCCC := i.Elems[len(i.Elems)-1].CCC() |
| if prevCCC == 0 { |
| i.N = len(i.Elems) |
| i.pEnd = i.pNext |
| return true |
| } else if i.Elems[i.N].CCC() == 0 { |
| // set i.N to only cover part of i.Elems for which prevCCC == 0 and |
| // use rest for the next call to next. |
| for i.N++; i.N < len(i.Elems) && i.Elems[i.N].CCC() == 0; i.N++ { |
| } |
| i.pEnd = i.pNext |
| return true |
| } |
| |
| // The current (partial) segment starts with modifiers. We need to collect |
| // all successive modifiers to ensure that they are normalized. |
| for { |
| p := len(i.Elems) |
| i.pEnd = i.pNext |
| if !i.appendNext() { |
| break |
| } |
| |
| if ccc := i.Elems[p].CCC(); ccc == 0 || len(i.Elems)-i.N > maxCombiningCharacters { |
| // Leave the starter for the next iteration. This ensures that we |
| // do not return sequences of collation elements that cross two |
| // segments. |
| // |
| // TODO: handle large number of combining characters by fully |
| // normalizing the input segment before iteration. This ensures |
| // results are consistent across the text repo. |
| i.N = p |
| return true |
| } else if ccc < prevCCC { |
| i.doNorm(p, ccc) // should be rare, never occurs for NFD and FCC. |
| } else { |
| prevCCC = ccc |
| } |
| } |
| |
| done := len(i.Elems) != i.N |
| i.N = len(i.Elems) |
| return done |
| } |
| |
| // nextNoNorm is the same as next, but does not "normalize" the collation |
| // elements. |
| func (i *Iter) nextNoNorm() bool { |
| // TODO: remove this function. Using this instead of next does not seem |
| // to improve performance in any significant way. We retain this until |
| // later for evaluation purposes. |
| if i.done() { |
| return false |
| } |
| i.appendNext() |
| i.N = len(i.Elems) |
| return true |
| } |
| |
| const maxCombiningCharacters = 30 |
| |
| // doNorm reorders the collation elements in i.Elems. |
| // It assumes that blocks of collation elements added with appendNext |
| // either start and end with the same CCC or start with CCC == 0. |
| // This allows for a single insertion point for the entire block. |
| // The correctness of this assumption is verified in builder.go. |
| func (i *Iter) doNorm(p int, ccc uint8) { |
| n := len(i.Elems) |
| k := p |
| for p--; p > i.N && ccc < i.Elems[p-1].CCC(); p-- { |
| } |
| i.Elems = append(i.Elems, i.Elems[p:k]...) |
| copy(i.Elems[p:], i.Elems[k:]) |
| i.Elems = i.Elems[:n] |
| } |