Mercurial > hg > release > icedtea7-forest-2.3 > jdk
view src/share/native/sun/font/layout/LookupProcessor.cpp @ 6409:47e0b80c2703
8024530: Enhance font process resilience
Reviewed-by: mschoene, bae, srl, prr
| author | prr |
|---|---|
| date | Sun, 20 Oct 2013 06:12:08 -0700 |
| parents | bd392c168d5c |
| children | 97c4591b09c5 |
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/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. * */ /* * * (C) Copyright IBM Corp. 1998-2013 - All Rights Reserved * */ #include "LETypes.h" #include "OpenTypeUtilities.h" #include "LEFontInstance.h" #include "OpenTypeTables.h" #include "ICUFeatures.h" #include "Lookups.h" #include "ScriptAndLanguage.h" #include "GlyphDefinitionTables.h" #include "GlyphIterator.h" #include "LookupProcessor.h" #include "LEGlyphStorage.h" #include "LESwaps.h" U_NAMESPACE_BEGIN le_uint32 LookupProcessor::applyLookupTable(const LEReferenceTo<LookupTable> &lookupTable, GlyphIterator *glyphIterator, const LEFontInstance *fontInstance, LEErrorCode& success) const { if (LE_FAILURE(success)) { return 0; } le_uint16 lookupType = SWAPW(lookupTable->lookupType); le_uint16 subtableCount = SWAPW(lookupTable->subTableCount); le_int32 startPosition = glyphIterator->getCurrStreamPosition(); le_uint32 delta; for (le_uint16 subtable = 0; subtable < subtableCount; subtable += 1) { LEReferenceTo<LookupSubtable> lookupSubtable = lookupTable->getLookupSubtable(lookupTable, subtable, success); delta = applySubtable(lookupSubtable, lookupType, glyphIterator, fontInstance, success); if (delta > 0 && LE_FAILURE(success)) { #if LE_TRACE _LETRACE("Posn #%d, type %X, applied subtable #%d/%d - %s\n", startPosition, lookupType, subtable, subtableCount, u_errorName((UErrorCode)success)); #endif return 1; } glyphIterator->setCurrStreamPosition(startPosition); } return 1; } le_int32 LookupProcessor::process(LEGlyphStorage &glyphStorage, GlyphPositionAdjustments *glyphPositionAdjustments, le_bool rightToLeft, const LEReferenceTo<GlyphDefinitionTableHeader> &glyphDefinitionTableHeader, const LEFontInstance *fontInstance, LEErrorCode& success) const { if (LE_FAILURE(success)) { return 0; } le_int32 glyphCount = glyphStorage.getGlyphCount(); if (lookupSelectArray == NULL) { return glyphCount; } GlyphIterator glyphIterator(glyphStorage, glyphPositionAdjustments, rightToLeft, 0, 0, glyphDefinitionTableHeader, success); le_int32 newGlyphCount = glyphCount; for (le_uint16 order = 0; order < lookupOrderCount && LE_SUCCESS(success); order += 1) { le_uint16 lookup = lookupOrderArray[order]; FeatureMask selectMask = lookupSelectArray[lookup]; if (selectMask != 0) { _LETRACE("Processing order#%d/%d", order, lookupOrderCount); const LEReferenceTo<LookupTable> lookupTable = lookupListTable->getLookupTable(lookupListTable, lookup, success); if (!lookupTable.isValid() ||LE_FAILURE(success) ) { continue; } le_uint16 lookupFlags = SWAPW(lookupTable->lookupFlags); glyphIterator.reset(lookupFlags, selectMask); while (glyphIterator.findFeatureTag()) { applyLookupTable(lookupTable, &glyphIterator, fontInstance, success); if (LE_FAILURE(success)) { #if LE_TRACE _LETRACE("Failure for lookup 0x%x - %s\n", lookup, u_errorName((UErrorCode)success)); #endif return 0; } } newGlyphCount = glyphIterator.applyInsertions(); } } return newGlyphCount; } le_uint32 LookupProcessor::applySingleLookup(le_uint16 lookupTableIndex, GlyphIterator *glyphIterator, const LEFontInstance *fontInstance, LEErrorCode& success) const { if (LE_FAILURE(success)) { return 0; } const LEReferenceTo<LookupTable> lookupTable = lookupListTable->getLookupTable(lookupListTable, lookupTableIndex, success); if (!lookupTable.isValid()) { success = LE_INTERNAL_ERROR; return 0; } le_uint16 lookupFlags = SWAPW(lookupTable->lookupFlags); GlyphIterator tempIterator(*glyphIterator, lookupFlags); le_uint32 delta = applyLookupTable(lookupTable, &tempIterator, fontInstance, success); return delta; } le_int32 LookupProcessor::selectLookups(const LEReferenceTo<FeatureTable> &featureTable, FeatureMask featureMask, le_int32 order, LEErrorCode &success) { le_uint16 lookupCount = featureTable.isValid()? SWAPW(featureTable->lookupCount) : 0; le_int32 store = order; LEReferenceToArrayOf<le_uint16> lookupListIndexArray(featureTable, success, featureTable->lookupListIndexArray, lookupCount); for (le_uint16 lookup = 0; LE_SUCCESS(success) && lookup < lookupCount; lookup += 1) { le_uint16 lookupListIndex = SWAPW(lookupListIndexArray.getObject(lookup,success)); if (lookupListIndex >= lookupSelectCount) { continue; } lookupSelectArray[lookupListIndex] |= featureMask; lookupOrderArray[store++] = lookupListIndex; } return store - order; } LookupProcessor::LookupProcessor(const LETableReference &baseAddress, Offset scriptListOffset, Offset featureListOffset, Offset lookupListOffset, LETag scriptTag, LETag languageTag, const FeatureMap *featureMap, le_int32 featureMapCount, le_bool orderFeatures, LEErrorCode& success) : lookupListTable(), featureListTable(), lookupSelectArray(NULL), lookupSelectCount(0), lookupOrderArray(NULL), lookupOrderCount(0), fReference(baseAddress) { LEReferenceTo<ScriptListTable> scriptListTable; LEReferenceTo<LangSysTable> langSysTable; le_uint16 featureCount = 0; le_uint16 lookupListCount = 0; le_uint16 requiredFeatureIndex; if (LE_FAILURE(success)) { return; } if (scriptListOffset != 0) { scriptListTable = LEReferenceTo<ScriptListTable>(baseAddress, success, scriptListOffset); langSysTable = scriptListTable->findLanguage(scriptListTable, scriptTag, languageTag, success); if (langSysTable.isValid() && LE_SUCCESS(success)) { featureCount = SWAPW(langSysTable->featureCount); } } if (featureListOffset != 0) { featureListTable = LEReferenceTo<FeatureListTable>(baseAddress, success, featureListOffset); } if (lookupListOffset != 0) { lookupListTable = LEReferenceTo<LookupListTable>(baseAddress,success, lookupListOffset); if(LE_SUCCESS(success) && lookupListTable.isValid()) { lookupListCount = SWAPW(lookupListTable->lookupCount); } } if (langSysTable.isEmpty() || featureListTable.isEmpty() || lookupListTable.isEmpty() || featureCount == 0 || lookupListCount == 0) { return; } if(langSysTable.isValid()) { requiredFeatureIndex = SWAPW(langSysTable->reqFeatureIndex); } lookupSelectArray = LE_NEW_ARRAY(FeatureMask, lookupListCount); if (lookupSelectArray == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return; } for (int i = 0; i < lookupListCount; i += 1) { lookupSelectArray[i] = 0; } lookupSelectCount = lookupListCount; le_int32 count, order = 0; le_uint32 featureReferences = 0; LEReferenceTo<FeatureTable> featureTable; LETag featureTag; LEReferenceTo<FeatureTable> requiredFeatureTable; LETag requiredFeatureTag = 0x00000000U; // Count the total number of lookups referenced by all features. This will // be the maximum number of entries in the lookupOrderArray. We can't use // lookupListCount because some lookups might be referenced by more than // one feature. if(featureListTable.isValid() && LE_SUCCESS(success)) { LEReferenceToArrayOf<le_uint16> featureIndexArray(langSysTable, success, langSysTable->featureIndexArray, featureCount); for (le_uint32 feature = 0; LE_SUCCESS(success)&&(feature < featureCount); feature += 1) { le_uint16 featureIndex = SWAPW(featureIndexArray.getObject(feature, success)); featureTable = featureListTable->getFeatureTable(featureListTable, featureIndex, &featureTag, success); if (!featureTable.isValid() || LE_FAILURE(success)) { continue; } featureReferences += SWAPW(featureTable->lookupCount); } } if (!featureTable.isValid() || LE_FAILURE(success)) { success = LE_INTERNAL_ERROR; return; } if (requiredFeatureIndex != 0xFFFF) { requiredFeatureTable = featureListTable->getFeatureTable(featureListTable, requiredFeatureIndex, &requiredFeatureTag, success); featureReferences += SWAPW(featureTable->lookupCount); } lookupOrderArray = LE_NEW_ARRAY(le_uint16, featureReferences); if (lookupOrderArray == NULL) { success = LE_MEMORY_ALLOCATION_ERROR; return; } for (le_int32 f = 0; f < featureMapCount; f += 1) { FeatureMap fm = featureMap[f]; count = 0; // If this is the required feature, add its lookups if (requiredFeatureTag == fm.tag) { count += selectLookups(requiredFeatureTable, fm.mask, order, success); } if (orderFeatures) { // If we added lookups from the required feature, sort them if (count > 1) { OpenTypeUtilities::sort(lookupOrderArray, order); } for (le_uint16 feature = 0; feature < featureCount; feature += 1) { LEReferenceToArrayOf<le_uint16> featureIndexArray(langSysTable, success, langSysTable->featureIndexArray, featureCount); le_uint16 featureIndex = SWAPW(featureIndexArray.getObject(feature,success)); // don't add the required feature to the list more than once... // TODO: Do we need this check? (Spec. says required feature won't be in feature list...) if (featureIndex == requiredFeatureIndex) { continue; } featureTable = featureListTable->getFeatureTable(featureListTable, featureIndex, &featureTag, success); if (featureTag == fm.tag) { count += selectLookups(featureTable, fm.mask, order + count, success); } } if (count > 1) { OpenTypeUtilities::sort(&lookupOrderArray[order], count); } order += count; } else if(langSysTable.isValid()) { LEReferenceToArrayOf<le_uint16> featureIndexArray(langSysTable, success, langSysTable->featureIndexArray, featureCount); for (le_uint16 feature = 0; LE_SUCCESS(success)&& (feature < featureCount); feature += 1) { le_uint16 featureIndex = SWAPW(featureIndexArray.getObject(feature,success)); // don't add the required feature to the list more than once... // NOTE: This check is commented out because the spec. says that // the required feature won't be in the feature list, and because // any duplicate entries will be removed below. #if 0 if (featureIndex == requiredFeatureIndex) { continue; } #endif featureTable = featureListTable->getFeatureTable(featureListTable, featureIndex, &featureTag, success); if (featureTag == fm.tag) { order += selectLookups(featureTable, fm.mask, order, success); } } } } if (!orderFeatures && (order > 1)) { OpenTypeUtilities::sort(lookupOrderArray, order); // If there's no specified feature order, // we will apply the lookups in the order // that they're in the font. If a particular // lookup may be referenced by more than one feature, // it will apprear in the lookupOrderArray more than // once, so remove any duplicate entries in the sorted array. le_int32 out = 1; for (le_int32 in = 1; in < order; in += 1) { if (lookupOrderArray[out - 1] != lookupOrderArray[in]) { if (out != in) { lookupOrderArray[out] = lookupOrderArray[in]; } out += 1; } } order = out; } lookupOrderCount = order; } LookupProcessor::LookupProcessor() { lookupOrderArray = NULL; lookupSelectArray = NULL; } LookupProcessor::~LookupProcessor() { LE_DELETE_ARRAY(lookupOrderArray); LE_DELETE_ARRAY(lookupSelectArray); } U_NAMESPACE_END