1 // [The "BSD licence"] 2 // Copyright (c) 2010 Alan Condit 3 // All rights reserved. 4 // 5 // Redistribution and use in source and binary forms, with or without 6 // modification, are permitted provided that the following conditions 7 // are met: 8 // 1. Redistributions of source code must retain the above copyright 9 // notice, this list of conditions and the following disclaimer. 10 // 2. Redistributions in binary form must reproduce the above copyright 11 // notice, this list of conditions and the following disclaimer in the 12 // documentation and/or other materials provided with the distribution. 13 // 3. The name of the author may not be used to endorse or promote products 14 // derived from this software without specific prior written permission. 15 // 16 // THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 17 // IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 18 // OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 19 // IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 20 // INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 21 // NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 25 // THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 27 #import "ANTLRBaseTreeAdaptor.h" 28 #import "ANTLRRuntimeException.h" 29 #import "ANTLRUniqueIDMap.h" 30 #import "ANTLRMapElement.h" 31 #import "ANTLRCommonTree.h" 32 33 @implementation ANTLRBaseTreeAdaptor 34 35 @synthesize treeToUniqueIDMap; 36 @synthesize uniqueNodeID; 37 38 + (id<ANTLRTree>) newEmptyTree 39 { 40 return [[ANTLRCommonTree alloc] init]; 41 } 42 43 - (id) init 44 { 45 self = [super init]; 46 if ( self != nil ) { 47 } 48 return self; 49 } 50 51 - (id) copyWithZone:(NSZone *)aZone 52 { 53 ANTLRBaseTreeAdaptor *copy; 54 55 copy = [[[self class] alloc] init]; 56 if (treeToUniqueIDMap) 57 copy.treeToUniqueIDMap = [treeToUniqueIDMap copyWithZone:aZone]; 58 copy.uniqueNodeID = uniqueNodeID; 59 return copy; 60 } 61 62 63 - (id) createNil 64 { 65 return [ANTLRCommonTree newTreeWithToken:nil]; 66 } 67 68 - (id) emptyNode 69 { 70 return [ANTLRCommonTree newTreeWithToken:nil]; 71 } 72 73 /** create tree node that holds the start and stop tokens associated 74 * with an error. 75 * 76 * If you specify your own kind of tree nodes, you will likely have to 77 * override this method. CommonTree returns Token.INVALID_TOKEN_TYPE 78 * if no token payload but you might have to set token type for diff 79 * node type. 80 * 81 * You don't have to subclass CommonErrorNode; you will likely need to 82 * subclass your own tree node class to avoid class cast exception. 83 */ 84 - (id) errorNode:(id<ANTLRTokenStream>)anInput 85 From:(id<ANTLRToken>)startToken 86 To:(id<ANTLRToken>)stopToken 87 Exception:(ANTLRRecognitionException *) e; 88 { 89 //System.out.println("returning error node '"+t+"' @index="+anInput.index()); 90 return [ANTLRCommonErrorNode newANTLRCommonErrorNode:anInput 91 From:startToken 92 To:stopToken 93 Exception:e]; 94 } 95 96 - (BOOL) isNil:(id) tree 97 { 98 return [(id)tree isNil]; 99 } 100 101 - (id)dupTree:(id)tree 102 { 103 return [self dupTree:(id)tree Parent:nil]; 104 } 105 106 /** This is generic in the sense that it will work with any kind of 107 * tree (not just Tree interface). It invokes the adaptor routines 108 * not the tree node routines to do the construction. 109 */ 110 - (id)dupTree:(id)t Parent:(id)parent 111 { 112 if ( t==nil ) { 113 return nil; 114 } 115 id newTree = [self dupNode:t]; 116 // ensure new subtree root has parent/child index set 117 [self setChildIndex:newTree With:[self getChildIndex:t]]; // same index in new tree 118 [self setParent:newTree With:parent]; 119 NSInteger n = [self getChildCount:t]; 120 for (NSInteger i = 0; i < n; i++) { 121 id child = [self getChild:t At:i]; 122 id newSubTree = [self dupTree:child Parent:t]; 123 [self addChild:newSubTree toTree:newTree]; 124 } 125 return newTree; 126 } 127 128 - (id)dupNode:(id)aNode 129 { 130 return aNode; // override for better results :>) 131 } 132 /** Add a child to the tree t. If child is a flat tree (a list), make all 133 * in list children of t. Warning: if t has no children, but child does 134 * and child isNil then you can decide it is ok to move children to t via 135 * t.children = child.children; i.e., without copying the array. Just 136 * make sure that this is consistent with have the user will build 137 * ASTs. 138 */ 139 - (void) addChild:(id)child toTree:(id)t 140 { 141 if ( t != nil && child != nil ) { 142 [(id)t addChild:child]; 143 } 144 } 145 146 /** If oldRoot is a nil root, just copy or move the children to newRoot. 147 * If not a nil root, make oldRoot a child of newRoot. 148 * 149 * old=^(nil a b c), new=r yields ^(r a b c) 150 * old=^(a b c), new=r yields ^(r ^(a b c)) 151 * 152 * If newRoot is a nil-rooted single child tree, use the single 153 * child as the new root node. 154 * 155 * old=^(nil a b c), new=^(nil r) yields ^(r a b c) 156 * old=^(a b c), new=^(nil r) yields ^(r ^(a b c)) 157 * 158 * If oldRoot was null, it's ok, just return newRoot (even if isNil). 159 * 160 * old=null, new=r yields r 161 * old=null, new=^(nil r) yields ^(nil r) 162 * 163 * Return newRoot. Throw an exception if newRoot is not a 164 * simple node or nil root with a single child node--it must be a root 165 * node. If newRoot is ^(nil x) return x as newRoot. 166 * 167 * Be advised that it's ok for newRoot to point at oldRoot's 168 * children; i.e., you don't have to copy the list. We are 169 * constructing these nodes so we should have this control for 170 * efficiency. 171 */ 172 - (id)becomeRoot:(id)newRoot old:(id)oldRoot 173 { 174 if ( oldRoot == nil ) { 175 return newRoot; 176 } 177 //System.out.println("becomeroot new "+newRoot.toString()+" old "+oldRoot); 178 id newRootTree = (id)newRoot; 179 id oldRootTree = (id)oldRoot; 180 // handle ^(nil real-node) 181 if ( [newRootTree isNil] ) { 182 NSInteger nc = [newRootTree getChildCount]; 183 if ( nc == 1 ) newRootTree = [(id)newRootTree getChild:0]; 184 else if ( nc > 1 ) { 185 // TODO: make tree run time exceptions hierarchy 186 @throw [ANTLRRuntimeException newException:NSStringFromClass([self class]) reason:@"more than one node as root (TODO: make exception hierarchy)"]; 187 } 188 } 189 // add oldRoot to newRoot; addChild takes care of case where oldRoot 190 // is a flat list (i.e., nil-rooted tree). All children of oldRoot 191 // are added to newRoot. 192 [newRootTree addChild:oldRootTree]; 193 return newRootTree; 194 } 195 196 /** Transform ^(nil x) to x and nil to null */ 197 - (id)rulePostProcessing:(id)root 198 { 199 //System.out.println("rulePostProcessing: "+((Tree)root).toStringTree()); 200 id r = (id)root; 201 if ( r != nil && [r isNil] ) { 202 if ( [r getChildCount] == 0 ) { 203 r = nil; 204 } 205 else if ( [r getChildCount] == 1 ) { 206 r = (id)[r getChild:0]; 207 // whoever invokes rule will set parent and child index 208 [r setParent:nil]; 209 [r setChildIndex:-1]; 210 } 211 } 212 return r; 213 } 214 215 - (id)becomeRootfromToken:(id<ANTLRToken>)newRoot old:(id)oldRoot 216 { 217 return [self becomeRoot:(id)[self create:newRoot] old:oldRoot]; 218 } 219 220 - (id) create:(id<ANTLRToken>)aToken 221 { 222 return [ANTLRCommonTree newTreeWithToken:aToken]; 223 } 224 225 - (id)createTree:(NSInteger)tokenType FromToken:(id<ANTLRToken>)fromToken 226 { 227 fromToken = [self createToken:fromToken]; 228 //((ClassicToken)fromToken).setType(tokenType); 229 [fromToken setType:tokenType]; 230 id t = [self create:fromToken]; 231 return t; 232 } 233 234 - (id)createTree:(NSInteger)tokenType FromToken:(id<ANTLRToken>)fromToken Text:(NSString *)text 235 { 236 if (fromToken == nil) 237 return [self createTree:tokenType Text:text]; 238 fromToken = [self createToken:fromToken]; 239 [fromToken setType:tokenType]; 240 [fromToken setText:text]; 241 id t = [self create:fromToken]; 242 return t; 243 } 244 245 - (id)createTree:(NSInteger)tokenType Text:(NSString *)text 246 { 247 id<ANTLRToken> fromToken = [self createToken:tokenType Text:text]; 248 id t = (id)[self create:fromToken]; 249 return t; 250 } 251 252 - (NSInteger) getType:(ANTLRCommonTree *) t 253 { 254 return [t type]; 255 } 256 257 - (void) setType:(id)t Type:(NSInteger)type 258 { 259 @throw [ANTLRNoSuchElementException newException:@"don't know enough about Tree node"]; 260 } 261 262 /** What is the Token associated with this node? If 263 * you are not using ANTLRCommonTree, then you must 264 * override this in your own adaptor. 265 */ 266 - (id<ANTLRToken>) getToken:(ANTLRCommonTree *) t 267 { 268 if ( [t isKindOfClass:[ANTLRCommonTree class]] ) { 269 return [t getToken]; 270 } 271 return nil; // no idea what to do 272 } 273 274 - (NSString *)getText:(ANTLRCommonTree *)t 275 { 276 return [t text]; 277 } 278 279 - (void) setText:(id)t Text:(NSString *)text 280 { 281 @throw [ANTLRNoSuchElementException newException:@"don't know enough about Tree node"]; 282 } 283 284 - (id) getChild:(id)t At:(NSInteger)index 285 { 286 return [(id)t getChild:index ]; 287 } 288 289 - (void) setChild:(id)t At:(NSInteger)index Child:(id)child 290 { 291 [(id)t setChild:index With:(id)child]; 292 } 293 294 - (id) deleteChild:(id)t Index:(NSInteger)index 295 { 296 return [(id)t deleteChild:index]; 297 } 298 299 - (NSInteger) getChildCount:(id)t 300 { 301 return [(id)t getChildCount]; 302 } 303 304 - (id<ANTLRBaseTree>) getParent:(id<ANTLRBaseTree>) t 305 { 306 if ( t == nil ) 307 return nil; 308 return (id<ANTLRBaseTree>)[t getParent]; 309 } 310 311 - (void) setParent:(id<ANTLRBaseTree>)t With:(id<ANTLRBaseTree>) parent 312 { 313 if ( t != nil ) 314 [(id<ANTLRBaseTree>) t setParent:(id<ANTLRBaseTree>)parent]; 315 } 316 317 /** What index is this node in the child list? Range: 0..n-1 318 * If your node type doesn't handle this, it's ok but the tree rewrites 319 * in tree parsers need this functionality. 320 */ 321 - (NSInteger) getChildIndex:(id)t 322 { 323 return ((ANTLRCommonTree *)t).childIndex; 324 } 325 326 - (void) setChildIndex:(id)t With:(NSInteger)index 327 { 328 ((ANTLRCommonTree *)t).childIndex = index; 329 } 330 331 - (void) replaceChildren:(id)parent From:(NSInteger)startChildIndex To:(NSInteger)stopChildIndex With:(id)t 332 { 333 return; 334 } 335 336 - (NSInteger) getUniqueID:(id)node 337 { 338 if ( treeToUniqueIDMap == nil ) { 339 treeToUniqueIDMap = [ANTLRUniqueIDMap newANTLRUniqueIDMap]; 340 } 341 NSNumber *prevID = [treeToUniqueIDMap getNode:node]; 342 if ( prevID != nil ) { 343 return [prevID integerValue]; 344 } 345 NSInteger anID = uniqueNodeID; 346 // ANTLRMapElement *aMapNode = [ANTLRMapElement newANTLRMapElementWithObj1:[NSNumber numberWithInteger:anID] Obj2:node]; 347 [treeToUniqueIDMap putID:[NSNumber numberWithInteger:anID] Node:node]; 348 uniqueNodeID++; 349 return anID; 350 // GCC makes these nonunique: 351 // return System.identityHashCode(node); 352 } 353 354 /** Tell me how to create a token for use with imaginary token nodes. 355 * For example, there is probably no input symbol associated with imaginary 356 * token DECL, but you need to create it as a payload or whatever for 357 * the DECL node as in ^(DECL type ID). 358 * 359 * If you care what the token payload objects' type is, you should 360 * override this method and any other createToken variant. 361 */ 362 - (id<ANTLRToken>) createToken:(NSInteger)aTType Text:(NSString *)text 363 { 364 return nil; 365 } 366 367 /** Tell me how to create a token for use with imaginary token nodes. 368 * For example, there is probably no input symbol associated with imaginary 369 * token DECL, but you need to create it as a payload or whatever for 370 * the DECL node as in ^(DECL type ID). 371 * 372 * This is a variant of createToken where the new token is derived from 373 * an actual real input token. Typically this is for converting '{' 374 * tokens to BLOCK etc... You'll see 375 * 376 * r : lc='{' ID+ '}' -> ^(BLOCK[$lc] ID+) ; 377 * 378 * If you care what the token payload objects' type is, you should 379 * override this method and any other createToken variant. 380 */ 381 - (id<ANTLRToken>) createToken:(id<ANTLRToken>) fromToken 382 { 383 return nil; 384 } 385 386 /** Track start/stop token for subtree root created for a rule. 387 * Only works with Tree nodes. For rules that match nothing, 388 * seems like this will yield start=i and stop=i-1 in a nil node. 389 * Might be useful info so I'll not force to be i..i. 390 */ 391 - (void) setTokenBoundaries:(id)aTree From:(id<ANTLRToken>)startToken To:(id<ANTLRToken>)stopToken 392 { 393 return; 394 } 395 396 - (NSInteger) getTokenStartIndex:(id)aTree 397 { 398 return -1; 399 } 400 401 - (NSInteger) getTokenStopIndex:(id)aTree 402 { 403 return -1; 404 } 405 406 #ifdef DONTUSENOMO 407 - (NSInteger)getUniqueID 408 { 409 return uniqueNodeID; 410 } 411 412 - (void) setUniqueNodeID:(NSInteger)aUniqueNodeID 413 { 414 uniqueNodeID = aUniqueNodeID; 415 } 416 417 - (ANTLRUniqueIDMap *)getTreeToUniqueIDMap 418 { 419 return treeToUniqueIDMap; 420 } 421 422 - (void) setTreeToUniqueIDMap:(ANTLRUniqueIDMap *)aMapListNode 423 { 424 treeToUniqueIDMap = aMapListNode; 425 } 426 427 #endif 428 429 @end 430
