2 /******************************************************************************
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3 * Copyright (C) 2008 by Diego Arroyuelo *
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4 * Interface for the in-memory XQuery/XPath engine *
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6 * This program is free software; you can redistribute it and/or modify *
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7 * it under the terms of the GNU Lesser General Public License as published *
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8 * by the Free Software Foundation; either version 2 of the License, or *
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9 * (at your option) any later version. *
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11 * This program is distributed in the hope that it will be useful, *
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12 * but WITHOUT ANY WARRANTY; without even the implied warranty of *
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13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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14 * GNU Lesser General Public License for more details. *
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16 * You should have received a copy of the GNU Lesser General Public License *
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17 * along with this program; if not, write to the *
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18 * Free Software Foundation, Inc., *
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19 * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *
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20 ******************************************************************************/
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24 #include "TextCollection/TextCollection.h"
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29 #include <static_bitsequence.h>
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30 #include <alphabet_mapper.h>
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31 #include <static_sequence.h>
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32 using SXSI::TextCollection;
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35 // this constant is used to efficiently compute the child operation in the tree
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41 #define bitset(e,p) ((e)[(p)/W] |= (1<<((p)%W)))
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42 // cleans bit p in e
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43 #define bitclean(e,p) ((e)[(p)/W] &= ~(1<<((p)%W)))
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46 typedef int treeNode;
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47 typedef int TagType;
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57 /** Balanced parentheses representation of the tree */
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60 /** Mapping from tag identifer to tag name */
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61 unsigned char **TagName;
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63 /** boolean flag indicating whether we are indexing empty texts or not */
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64 bool indexing_empty_texts;
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66 /** Bit vector indicating with a 1 the positions of the non-empty texts. */
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67 static_bitsequence_rrr02 *EBVector;
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69 /** Tag sequence represented with a data structure for rank and select */
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70 static_sequence_wvtree *Tags;
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72 /** The texts in the XML document */
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73 TextCollection *Text;
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75 /** Flag indicating whether the whole data structure has been constructed or
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76 * not. If the value is true, you cannot add more texts, nodes, etc. */
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79 /** Flag indicating whether the construction of the data structure has been
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80 * initialized or not (by calling method OpenDocument()). If this is true,
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81 * you cannot insert new tags or texts. */
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84 /* the following components are used for construction purposes */
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89 unsigned int *empty_texts_aux;
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93 /** Data structure constructor */
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94 XMLTree() {finished = false; initialized = false;};
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96 /** Data structure destructor */
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99 /** root(): returns the tree root. */
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102 /** SubtreeSize(x): the number of nodes (and attributes) in the subtree of
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104 int SubtreeSize(treeNode x);
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106 /** SubtreeTags(x,tag): the number of occurrences of tag within the subtree
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108 int SubtreeTags(treeNode x, TagType tag);
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110 /** IsLeaf(x): returns whether node x is leaf or not. In the succinct
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111 * representation this is just a bit inspection. */
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112 bool IsLeaf(treeNode x);
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114 /** IsAncestor(x,y): returns whether node x is ancestor of node y. */
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115 bool IsAncestor(treeNode x, treeNode y);
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117 /** IsChild(x,y): returns whether node x is parent of node y. */
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118 bool IsChild(treeNode x, treeNode y);
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120 /** NumChildren(x): number of children of node x. Constant time with the
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121 * data structure of Sadakane. */
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122 int NumChildren(treeNode x);
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124 /** ChildNumber(x): returns i if node x is the i-th children of its
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126 inline int ChildNumber(treeNode x);
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128 /** Depth(x): depth of node x, a simple binary rank on the parentheses
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130 int Depth(treeNode x);
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132 /** Preorder(x): returns the preorder number of node x, just regarding tree
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133 * nodes (and not texts). */
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134 int Preorder(treeNode x);
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136 /** Postorder(x): returns the postorder number of node x, just regarding
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137 * tree nodes (and not texts). */
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138 int Postorder(treeNode x);
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140 /** Tag(x): returns the tag identifier of node x. */
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141 TagType Tag(treeNode x);
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143 /** DocIds(x): returns the range (i.e., a pair of integers) of document
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144 * identifiers that descend from node x. */
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145 range DocIds(treeNode x);
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147 /** Parent(x): returns the parent node of node x. */
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148 treeNode Parent(treeNode x);
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150 /** Child(x,i): returns the i-th child of node x, assuming it exists. */
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151 treeNode Child(treeNode x, int i);
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153 /** FirstChild(x): returns the first child of node x, assuming it exists.
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154 * Very fast in BP. */
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155 treeNode FirstChild(treeNode x);
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157 /** NextSibling(x): returns the next sibling of node x, assuming it
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159 treeNode NextSibling(treeNode x);
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161 /** PrevSibling(x): returns the previous sibling of node x, assuming it
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163 treeNode PrevSibling(treeNode x);
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165 /** TaggedChild(x,i,tag): returns the i-th child of node x tagged tag, or
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166 * NULLT if there is none. Because of the balanced-parentheses representation
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167 * of the tree, this operation is not supported efficiently, just iterating
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168 * among the children of node x until finding the desired child. */
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169 treeNode TaggedChild(treeNode x, int i, TagType tag);
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171 /** TaggedDesc(x,tag): returns the first node tagged tag with larger
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172 * preorder than x and within the subtree of x. Returns NULT if there
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174 treeNode TaggedDesc(treeNode x, TagType tag);
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176 /** TaggedPrec(x,tag): returns the first node tagged tag with smaller
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177 * preorder than x and not an ancestor of x. Returns NULLT if there
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179 treeNode TaggedPrec(treeNode x, TagType tag);
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181 /** TaggedFoll(x,tag): returns the first node tagged tag with larger
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182 * preorder than x and not in the subtree of x. Returns NULLT if there
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184 treeNode TaggedFoll(treeNode x, TagType tag);
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186 /** PrevText(x): returns the document identifier of the text to the left of
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187 * node x, or NULLT if x is the root node. */
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188 DocID PrevText(treeNode x);
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190 /** NextText(x): returns the document identifier of the text to the right of
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191 * node x, or NULLT if x is the root node. */
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192 DocID NextText(treeNode x);
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194 /** MyText(x): returns the document identifier of the text below node x, or
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195 * NULLT if x is not a leaf node. */
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196 DocID MyText(treeNode x);
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198 /** TextXMLId(d): returns the preorder of document with identifier d in the
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199 * tree consisting of all tree nodes and all text nodes. */
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200 int TextXMLId(DocID d);
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202 /** NodeXMLId(x): returns the preorder of node x in the tree consisting of
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203 * all tree nodes and all text nodes. */
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204 int NodeXMLId(treeNode x);
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206 /** ParentNode(d): returns the parent node of document identifier d. */
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207 treeNode ParentNode(DocID d);
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209 /** OpenDocument(empty_texts,sample_rate_text): initilizes the construction
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210 * of the data structure for the XML document. Parameter empty_texts
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211 * indicates whether we index empty texts in document or not. Parameter
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212 * sample_rate_text indicates the sampling rate for the text searching data
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213 * structures (small values get faster searching but a bigger space
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214 * requirement). Returns a non-zero value upon success, NULLT in case of
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216 int OpenDocument(bool empty_texts, int sample_rate_text);
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218 /** CloseDocument(): finishes the construction of the data structure for
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219 * the XML document. Tree and tags are represented in the final form,
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220 * dynamic data structures are made static, and the flag "finished" is set
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221 * to true. After that, the data structure can be queried. */
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222 int CloseDocument();
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224 /** NewOpenTag(tagname): indicates the event of finding a new opening tag
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225 * in the document. Tag name is given. Returns a non-zero value upon
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226 * success, and returns NULLT in case of error. */
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227 int NewOpenTag(unsigned char *tagname);
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229 /** NewClosingTag(tagname): indicates the event of finding a new closing tag
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230 * in the document. Tag name is given. Returns a non-zero value upon
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231 * success, and returns NULLT in case of error. */
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232 int NewClosingTag(unsigned char *tagname);
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234 /** NewText(s): indicates the event of finding a new (non-empty) text s in
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235 * the document. The new text is inserted within the text collection.
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236 * Returns a non-zero value upon success, NULLT in case of error. */
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237 int NewText(unsigned char *s);
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239 /** NewEmptyText(): indicates the event of finding a new empty text in the
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240 * document. In case of indexing empty and non-empty texts, we insert the
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241 * empty texts into the text collection. In case of indexing only non-empty
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242 * texts, it just indicates an empty text in the bit vector of empty texts.
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243 * Returns a non-zero value upon success, NULLT in case of error. */
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244 int NewEmptyText();
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246 /** GetTagId(tagname): returns the tag identifier corresponding to a given
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247 * tag name. Returns NULLT in case that the tag name does not exists. */
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248 TagType GetTagId(unsigned char *tagname);
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250 /** GetTagName(tagid): returns the tag name of a given tag identifier.
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251 * Returns NULL in case that the tag identifier is not valid.*/
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252 unsigned char *GetTagName(TagType tagid);
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254 /** Prefix(s): search for texts prefixed by string s. */
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255 TextCollection::document_result Prefix(uchar const *s) {
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256 return Text->Prefix(s);
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259 /** Suffix(s): search for texts having string s as a suffix. */
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260 TextCollection::document_result Suffix(uchar const *s) {
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261 return Text->Suffix(s);
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264 /** Equal(s): search for texts equal to string s. */
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265 TextCollection::document_result Equal(uchar const *s) {
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266 return Text->Equal(s);
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269 /** Contains(s): search for texts containing string s. */
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270 TextCollection::document_result Contains(uchar const *s) {
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271 return Text->Contains(s);
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274 /** LessThan(s): returns document identifiers for the texts that
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275 * are lexicographically smaller than string s. */
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276 TextCollection::document_result LessThan(uchar const *s) {
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277 return Text->LessThan(s);
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280 /** IsPrefix(x): returns true if there is a text prefixed by string s. */
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281 bool IsPrefix(uchar const *s) {
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282 return Text->IsPrefix(s);
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285 /** IsSuffix(s): returns true if there is a text having string s as a
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287 bool IsSuffix(uchar const *s) {
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288 return Text->IsSuffix(s);
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291 /** IsEqual(s): returns true if there is a text that equals given
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293 bool IsEqual(uchar const *s) {
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294 return Text->IsEqual(s);
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297 /** IsContains(s): returns true if there is a text containing string s. */
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298 bool IsContains(uchar const *s) {
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299 return Text->IsContains(s);
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302 /** IsLessThan(s): returns true if there is at least a text that is
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303 * lexicographically smaller than string s. */
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304 bool IsLessThan(uchar const *s) {
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305 return Text->IsLessThan(s);
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308 /** CountPrefix(s): counting version of Prefix(s). */
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309 unsigned CountPrefix(uchar const *s) {
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310 return Text->CountPrefix(s);
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313 /** CountSuffix(s): counting version of Suffix(s). */
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314 unsigned CountSuffix(uchar const *s) {
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315 return Text->CountSuffix(s);
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318 /** CountEqual(s): counting version of Equal(s). */
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319 unsigned CountEqual(uchar const *s) {
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320 return Text->CountEqual(s);
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323 /** CountContains(s): counting version of Contains(s). */
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324 unsigned CountContains(uchar const *s) {
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325 return Text->CountContains(s);
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328 /** CountLessThan(s): counting version of LessThan(s). */
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329 unsigned CountLessThan(uchar const *s) {
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330 return CountLessThan(s);
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333 /** GetText(d): returns the text corresponding to document with
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335 uchar* GetText(DocID d) {
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336 return Text->GetText(d);
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339 /** Save: saves XML tree data structure to file. */
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340 void Save(unsigned char *filename);
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342 /** Load: loads XML tree data structure from file. sample_rate_text
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343 * indicates the sample rate for the text search data structure. */
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344 static XMLTree *Load(unsigned char *filename, int sample_rate_text);
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