1 /* 2 * Copyright 2007, The Android Open Source Project 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions 6 * are met: 7 * * Redistributions of source code must retain the above copyright 8 * notice, this list of conditions and the following disclaimer. 9 * * Redistributions in binary form must reproduce the above copyright 10 * notice, this list of conditions and the following disclaimer in the 11 * documentation and/or other materials provided with the distribution. 12 * 13 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS ``AS IS'' AND ANY 14 * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 15 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR 16 * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR 17 * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, 18 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, 19 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR 20 * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY 21 * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 22 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 23 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 24 */ 25 26 #include "CachedPrefix.h" 27 #include "android_graphics.h" 28 #include "CachedFrame.h" 29 #include "CachedHistory.h" 30 #include "Node.h" 31 #include "PlatformString.h" 32 33 #include "CachedNode.h" 34 35 namespace android { 36 37 WebCore::IntRect CachedNode::bounds(const CachedFrame* frame) const 38 { 39 return mIsInLayer ? frame->adjustBounds(this, mBounds) : mBounds; 40 } 41 42 void CachedNode::clearCursor(CachedFrame* parent) 43 { 44 if (isFrame()) { 45 CachedFrame* child = const_cast<CachedFrame*>(parent->hasFrame(this)); 46 child->clearCursor(); 47 } 48 mIsCursor = false; 49 } 50 51 bool CachedNode::Clip(const WebCore::IntRect& outer, WebCore::IntRect* inner, 52 WTF::Vector<WebCore::IntRect>* rings) 53 { 54 if (outer.contains(*inner)) 55 return true; 56 // DBG_NAV_LOGD("outer:{%d,%d,%d,%d} does not contain inner:{%d,%d,%d,%d}", 57 // outer.x(), outer.y(), outer.width(), outer.height(), 58 // inner->x(), inner->y(), inner->width(), inner->height()); 59 bool intersects = outer.intersects(*inner); 60 size_t size = intersects ? rings->size() : 0; 61 *inner = WebCore::IntRect(0, 0, 0, 0); 62 if (intersects) { 63 WebCore::IntRect * const start = rings->begin(); 64 WebCore::IntRect* ring = start + size - 1; 65 do { 66 ring->intersect(outer); 67 if (ring->isEmpty()) { 68 if ((size_t) (ring - start) != --size) 69 *ring = start[size]; 70 } else 71 inner->unite(*ring); 72 } while (ring-- != start); 73 } 74 rings->shrink(size); 75 // DBG_NAV_LOGD("size:%d", size); 76 return size != 0; 77 } 78 79 bool CachedNode::clip(const WebCore::IntRect& bounds) 80 { 81 return Clip(bounds, &mBounds, &mCursorRing); 82 } 83 84 85 void CachedNode::cursorRings(const CachedFrame* frame, 86 WTF::Vector<WebCore::IntRect>* rings) const 87 { 88 rings->clear(); 89 for (unsigned index = 0; index < mCursorRing.size(); index++) 90 rings->append(ring(frame, index)); 91 } 92 93 WebCore::IntRect CachedNode::cursorRingBounds(const CachedFrame* frame) const 94 { 95 int partMax = mNavableRects; 96 ASSERT(partMax > 0); 97 WebCore::IntRect bounds = mCursorRing[0]; 98 for (int partIndex = 1; partIndex < partMax; partIndex++) 99 bounds.unite(mCursorRing[partIndex]); 100 bounds.inflate(CURSOR_RING_HIT_TEST_RADIUS); 101 return mIsInLayer ? frame->adjustBounds(this, bounds) : bounds; 102 } 103 104 #define OVERLAP 3 105 106 void CachedNode::fixUpCursorRects(const CachedFrame* frame) 107 { 108 if (mFixedUpCursorRects) 109 return; 110 mFixedUpCursorRects = true; 111 // if the hit-test rect doesn't intersect any other rect, use it 112 if (mHitBounds != mBounds && mHitBounds.contains(mBounds) && 113 frame->checkRings(this, mCursorRing, mHitBounds)) { 114 DBG_NAV_LOGD("use mHitBounds (%d,%d,%d,%d)", mHitBounds.x(), 115 mHitBounds.y(), mHitBounds.width(), mHitBounds.height()); 116 mUseHitBounds = true; 117 return; 118 } 119 if (mNavableRects <= 1) 120 return; 121 // if there is more than 1 rect, and the bounds doesn't intersect 122 // any other cursor ring bounds, use it 123 if (frame->checkRings(this, mCursorRing, mBounds)) { 124 DBG_NAV_LOGD("use mBounds (%d,%d,%d,%d)", mBounds.x(), 125 mBounds.y(), mBounds.width(), mBounds.height()); 126 mUseBounds = true; 127 return; 128 } 129 #if DEBUG_NAV_UI 130 { 131 WebCore::IntRect* boundsPtr = mCursorRing.begin() - 1; 132 const WebCore::IntRect* const boundsEnd = mCursorRing.begin() + mCursorRing.size(); 133 while (++boundsPtr < boundsEnd) 134 LOGD("%s %d:(%d, %d, %d, %d)\n", __FUNCTION__, boundsPtr - mCursorRing.begin(), 135 boundsPtr->x(), boundsPtr->y(), boundsPtr->width(), boundsPtr->height()); 136 } 137 #endif 138 // q: need to know when rects are for drawing and hit-testing, but not mouse down calcs? 139 bool again; 140 do { 141 again = false; 142 size_t size = mCursorRing.size(); 143 WebCore::IntRect* unitBoundsPtr = mCursorRing.begin() - 1; 144 const WebCore::IntRect* const unitBoundsEnd = mCursorRing.begin() + size; 145 while (++unitBoundsPtr < unitBoundsEnd) { 146 // any other unitBounds to the left or right of this one? 147 int unitTop = unitBoundsPtr->y(); 148 int unitBottom = unitBoundsPtr->bottom(); 149 int unitLeft = unitBoundsPtr->x(); 150 int unitRight = unitBoundsPtr->right(); 151 WebCore::IntRect* testBoundsPtr = mCursorRing.begin() - 1; 152 while (++testBoundsPtr < unitBoundsEnd) { 153 if (unitBoundsPtr == testBoundsPtr) 154 continue; 155 int testTop = testBoundsPtr->y(); 156 int testBottom = testBoundsPtr->bottom(); 157 int testLeft = testBoundsPtr->x(); 158 int testRight = testBoundsPtr->right(); 159 int candidateTop = unitTop > testTop ? unitTop : testTop; 160 int candidateBottom = unitBottom < testBottom ? unitBottom : testBottom; 161 int candidateLeft = unitRight < testLeft ? unitRight : testRight; 162 int candidateRight = unitRight > testLeft ? unitLeft : testLeft; 163 bool leftRight = true; 164 if (candidateTop + OVERLAP >= candidateBottom || 165 candidateLeft + OVERLAP >= candidateRight) { 166 candidateTop = unitBottom < testTop ? unitBottom : testBottom; 167 candidateBottom = unitBottom > testTop ? unitTop : testTop; 168 candidateLeft = unitLeft > testLeft ? unitLeft : testLeft; 169 candidateRight = unitRight < testRight ? unitRight : testRight; 170 if (candidateTop + OVERLAP >= candidateBottom || 171 candidateLeft + OVERLAP >= candidateRight) 172 continue; 173 leftRight = false; 174 } 175 // construct candidate to add 176 WebCore::IntRect candidate = WebCore::IntRect(candidateLeft, candidateTop, 177 candidateRight - candidateLeft, candidateBottom - candidateTop); 178 // does a different unit bounds intersect the candidate? if so, don't add 179 WebCore::IntRect* checkBoundsPtr = mCursorRing.begin() - 1; 180 while (++checkBoundsPtr < unitBoundsEnd) { 181 if (checkBoundsPtr->intersects(candidate) == false) 182 continue; 183 if (leftRight) { 184 if (candidateTop >= checkBoundsPtr->y() && 185 candidateBottom > checkBoundsPtr->bottom()) 186 candidateTop = checkBoundsPtr->bottom(); 187 else if (candidateTop < checkBoundsPtr->y() && 188 candidateBottom <= checkBoundsPtr->bottom()) 189 candidateBottom = checkBoundsPtr->y(); 190 else 191 goto nextCheck; 192 } else { 193 if (candidateLeft >= checkBoundsPtr->x() && 194 candidateRight > checkBoundsPtr->right()) 195 candidateLeft = checkBoundsPtr->right(); 196 else if (candidateLeft < checkBoundsPtr->x() && 197 candidateRight <= checkBoundsPtr->right()) 198 candidateRight = checkBoundsPtr->x(); 199 else 200 goto nextCheck; 201 } 202 } 203 candidate = WebCore::IntRect(candidateLeft, candidateTop, 204 candidateRight - candidateLeft, candidateBottom - candidateTop); 205 ASSERT(candidate.isEmpty() == false); 206 #if DEBUG_NAV_UI 207 LOGD("%s %d:(%d, %d, %d, %d)\n", __FUNCTION__, mCursorRing.size(), 208 candidate.x(), candidate.y(), candidate.width(), candidate.height()); 209 #endif 210 mCursorRing.append(candidate); 211 again = true; 212 goto tryAgain; 213 nextCheck: 214 continue; 215 } 216 } 217 tryAgain: 218 ; 219 } while (again); 220 } 221 222 223 void CachedNode::hideCursor(CachedFrame* parent) 224 { 225 if (isFrame()) { 226 CachedFrame* child = const_cast<CachedFrame*>(parent->hasFrame(this)); 227 child->hideCursor(); 228 } 229 mIsHidden = true; 230 } 231 232 WebCore::IntRect CachedNode::hitBounds(const CachedFrame* frame) const 233 { 234 return mIsInLayer ? frame->adjustBounds(this, mHitBounds) : mHitBounds; 235 } 236 237 void CachedNode::init(WebCore::Node* node) 238 { 239 bzero(this, sizeof(CachedNode)); 240 mExport = WebCore::String(); 241 mNode = node; 242 mParentIndex = mDataIndex = -1; 243 mType = android::NORMAL_CACHEDNODETYPE; 244 } 245 246 bool CachedNode::isTextField(const CachedFrame* frame) const 247 { 248 const CachedInput* input = frame->textInput(this); 249 return input ? input->isTextField() : false; 250 } 251 252 void CachedNode::localCursorRings(const CachedFrame* frame, 253 WTF::Vector<WebCore::IntRect>* rings) const 254 { 255 rings->clear(); 256 for (unsigned index = 0; index < mCursorRing.size(); index++) 257 rings->append(localRing(frame, index)); 258 } 259 260 WebCore::IntRect CachedNode::localBounds(const CachedFrame* frame) const 261 { 262 return mIsInLayer ? frame->localBounds(this, mBounds) : mBounds; 263 } 264 265 WebCore::IntRect CachedNode::localHitBounds(const CachedFrame* frame) const 266 { 267 return mIsInLayer ? frame->localBounds(this, mHitBounds) : mHitBounds; 268 } 269 270 WebCore::IntRect CachedNode::localRing(const CachedFrame* frame, 271 size_t part) const 272 { 273 const WebCore::IntRect& rect = mCursorRing.at(part); 274 return mIsInLayer ? frame->localBounds(this, rect) : rect; 275 } 276 277 void CachedNode::move(int x, int y) 278 { 279 mBounds.move(x, y); 280 // mHitTestBounds will be moved by caller 281 WebCore::IntRect* first = mCursorRing.begin(); 282 WebCore::IntRect* last = first + mCursorRing.size(); 283 --first; 284 while (++first != last) 285 first->move(x, y); 286 } 287 288 bool CachedNode::partRectsContains(const CachedNode* other) const 289 { 290 int outerIndex = 0; 291 int outerMax = mNavableRects; 292 int innerMax = other->mNavableRects; 293 do { 294 const WebCore::IntRect& outerBounds = mCursorRing[outerIndex]; 295 int innerIndex = 0; 296 do { 297 const WebCore::IntRect& innerBounds = other->mCursorRing[innerIndex]; 298 if (innerBounds.contains(outerBounds)) 299 return true; 300 } while (++innerIndex < innerMax); 301 } while (++outerIndex < outerMax); 302 return false; 303 } 304 305 WebCore::IntRect CachedNode::ring(const CachedFrame* frame, size_t part) const 306 { 307 const WebCore::IntRect& rect = mCursorRing.at(part); 308 return mIsInLayer ? frame->adjustBounds(this, rect) : rect; 309 } 310 311 #if DUMP_NAV_CACHE 312 313 #define DEBUG_PRINT_BOOL(field) \ 314 DUMP_NAV_LOGD("// bool " #field "=%s;\n", b->field ? "true" : "false") 315 316 #define DEBUG_PRINT_RECT(field) \ 317 { const WebCore::IntRect& r = b->field; \ 318 DUMP_NAV_LOGD("// IntRect " #field "={%d, %d, %d, %d};\n", \ 319 r.x(), r.y(), r.width(), r.height()); } 320 321 CachedNode* CachedNode::Debug::base() const { 322 CachedNode* nav = (CachedNode*) ((char*) this - OFFSETOF(CachedNode, mDebug)); 323 return nav; 324 } 325 326 const char* CachedNode::Debug::condition(Condition t) const 327 { 328 switch (t) { 329 case NOT_REJECTED: return "NOT_REJECTED"; break; 330 case BUTTED_UP: return "BUTTED_UP"; break; 331 case CENTER_FURTHER: return "CENTER_FURTHER"; break; 332 case CLOSER: return "CLOSER"; break; 333 case CLOSER_IN_CURSOR: return "CLOSER_IN_CURSOR"; break; 334 case CLOSER_OVERLAP: return "CLOSER_OVERLAP"; break; 335 case CLOSER_TOP: return "CLOSER_TOP"; break; 336 case NAVABLE: return "NAVABLE"; break; 337 case FURTHER: return "FURTHER"; break; 338 case IN_UMBRA: return "IN_UMBRA"; break; 339 case IN_WORKING: return "IN_WORKING"; break; 340 case LEFTMOST: return "LEFTMOST"; break; 341 case OVERLAP_OR_EDGE_FURTHER: return "OVERLAP_OR_EDGE_FURTHER"; break; 342 case PREFERRED: return "PREFERRED"; break; 343 case ANCHOR_IN_ANCHOR: return "ANCHOR_IN_ANCHOR"; break; 344 case BEST_DIRECTION: return "BEST_DIRECTION"; break; 345 case CHILD: return "CHILD"; break; 346 case DISABLED: return "DISABLED"; break; 347 case HIGHER_TAB_INDEX: return "HIGHER_TAB_INDEX"; break; 348 case IN_CURSOR: return "IN_CURSOR"; break; 349 case IN_CURSOR_CHILDREN: return "IN_CURSOR_CHILDREN"; break; 350 case NOT_ENCLOSING_CURSOR: return "NOT_ENCLOSING_CURSOR"; break; 351 case NOT_CURSOR_NODE: return "NOT_CURSOR_NODE"; break; 352 case OUTSIDE_OF_BEST: return "OUTSIDE_OF_BEST"; break; 353 case OUTSIDE_OF_ORIGINAL: return "OUTSIDE_OF_ORIGINAL"; break; 354 default: return "???"; 355 } 356 } 357 358 const char* CachedNode::Debug::type(android::CachedNodeType t) const 359 { 360 switch (t) { 361 case NORMAL_CACHEDNODETYPE: return "NORMAL"; break; 362 case ADDRESS_CACHEDNODETYPE: return "ADDRESS"; break; 363 case EMAIL_CACHEDNODETYPE: return "EMAIL"; break; 364 case PHONE_CACHEDNODETYPE: return "PHONE"; break; 365 case ANCHOR_CACHEDNODETYPE: return "ANCHOR"; break; 366 case AREA_CACHEDNODETYPE: return "AREA"; break; 367 case FRAME_CACHEDNODETYPE: return "FRAME"; break; 368 case PLUGIN_CACHEDNODETYPE: return "PLUGIN"; break; 369 case TEXT_INPUT_CACHEDNODETYPE: return "INPUT"; break; 370 default: return "???"; 371 } 372 } 373 374 void CachedNode::Debug::print() const 375 { 376 CachedNode* b = base(); 377 char scratch[256]; 378 size_t index = snprintf(scratch, sizeof(scratch), "// char* mExport=\""); 379 const UChar* ch = b->mExport.characters(); 380 while (ch && *ch && index < sizeof(scratch)) { 381 UChar c = *ch++; 382 if (c < ' ' || c >= 0x7f) c = ' '; 383 scratch[index++] = c; 384 } 385 DUMP_NAV_LOGD("%.*s\"\n", index, scratch); 386 DEBUG_PRINT_RECT(mBounds); 387 DEBUG_PRINT_RECT(mHitBounds); 388 DEBUG_PRINT_RECT(mOriginalAbsoluteBounds); 389 const WTF::Vector<WebCore::IntRect>* rects = &b->mCursorRing; 390 size_t size = rects->size(); 391 DUMP_NAV_LOGD("// IntRect cursorRings={ // size=%d\n", size); 392 for (size_t i = 0; i < size; i++) { 393 const WebCore::IntRect& rect = (*rects)[i]; 394 DUMP_NAV_LOGD(" // {%d, %d, %d, %d}, // %d\n", rect.x(), rect.y(), 395 rect.width(), rect.height(), i); 396 } 397 DUMP_NAV_LOGD("// };\n"); 398 DUMP_NAV_LOGD("// void* mNode=%p; // (%d) \n", b->mNode, mNodeIndex); 399 DUMP_NAV_LOGD("// void* mParentGroup=%p; // (%d) \n", b->mParentGroup, mParentGroupIndex); 400 DUMP_NAV_LOGD("// int mDataIndex=%d;\n", b->mDataIndex); 401 DUMP_NAV_LOGD("// int mIndex=%d;\n", b->mIndex); 402 DUMP_NAV_LOGD("// int mNavableRects=%d;\n", b->mNavableRects); 403 DUMP_NAV_LOGD("// int mParentIndex=%d;\n", b->mParentIndex); 404 DUMP_NAV_LOGD("// int mTabIndex=%d;\n", b->mTabIndex); 405 DUMP_NAV_LOGD("// Condition mCondition=%s;\n", condition(b->mCondition)); 406 DUMP_NAV_LOGD("// Type mType=%s;\n", type(b->mType)); 407 DEBUG_PRINT_BOOL(mClippedOut); 408 DEBUG_PRINT_BOOL(mDisabled); 409 DEBUG_PRINT_BOOL(mFixedUpCursorRects); 410 DEBUG_PRINT_BOOL(mHasCursorRing); 411 DEBUG_PRINT_BOOL(mHasMouseOver); 412 DEBUG_PRINT_BOOL(mIsCursor); 413 DEBUG_PRINT_BOOL(mIsFocus); 414 DEBUG_PRINT_BOOL(mIsHidden); 415 DEBUG_PRINT_BOOL(mIsInLayer); 416 DEBUG_PRINT_BOOL(mIsParentAnchor); 417 DEBUG_PRINT_BOOL(mIsTransparent); 418 DEBUG_PRINT_BOOL(mIsUnclipped); 419 DEBUG_PRINT_BOOL(mLast); 420 DEBUG_PRINT_BOOL(mUseBounds); 421 DEBUG_PRINT_BOOL(mUseHitBounds); 422 DUMP_NAV_LOGD("\n"); 423 } 424 425 #endif 426 427 } 428