/*
*
* (C) Copyright IBM Corp. 1998-2008 - All Rights Reserved
*
*/
#include "LETypes.h"
#include "OpenTypeUtilities.h"
#include "LEFontInstance.h"
#include "OpenTypeTables.h"
#include "Features.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 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) {
const LookupSubtable *lookupSubtable = lookupTable->getLookupSubtable(subtable);
delta = applySubtable(lookupSubtable, lookupType, glyphIterator, fontInstance, success);
if (delta > 0 && LE_FAILURE(success)) {
return 1;
}
glyphIterator->setCurrStreamPosition(startPosition);
}
return 1;
}
le_int32 LookupProcessor::process(LEGlyphStorage &glyphStorage, GlyphPositionAdjustments *glyphPositionAdjustments,
le_bool rightToLeft, const 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);
le_int32 newGlyphCount = glyphCount;
for (le_uint16 order = 0; order < lookupOrderCount; order += 1) {
le_uint16 lookup = lookupOrderArray[order];
FeatureMask selectMask = lookupSelectArray[lookup];
if (selectMask != 0) {
const LookupTable *lookupTable = lookupListTable->getLookupTable(lookup);
le_uint16 lookupFlags = SWAPW(lookupTable->lookupFlags);
glyphIterator.reset(lookupFlags, selectMask);
while (glyphIterator.findFeatureTag()) {
applyLookupTable(lookupTable, &glyphIterator, fontInstance, success);
if (LE_FAILURE(success)) {
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 LookupTable *lookupTable = lookupListTable->getLookupTable(lookupTableIndex);
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 FeatureTable *featureTable, FeatureMask featureMask, le_int32 order)
{
le_uint16 lookupCount = featureTable? SWAPW(featureTable->lookupCount) : 0;
le_int32 store = order;
for (le_uint16 lookup = 0; lookup < lookupCount; lookup += 1) {
le_uint16 lookupListIndex = SWAPW(featureTable->lookupListIndexArray[lookup]);
lookupSelectArray[lookupListIndex] |= featureMask;
lookupOrderArray[store++] = lookupListIndex;
}
return store - order;
}
LookupProcessor::LookupProcessor(const char *baseAddress,
Offset scriptListOffset, Offset featureListOffset, Offset lookupListOffset,
LETag scriptTag, LETag languageTag, const FeatureMap *featureMap, le_int32 featureMapCount, le_bool orderFeatures,
LEErrorCode& success)
: lookupListTable(NULL), featureListTable(NULL), lookupSelectArray(NULL),
lookupOrderArray(NULL), lookupOrderCount(0)
{
const ScriptListTable *scriptListTable = NULL;
const LangSysTable *langSysTable = NULL;
le_uint16 featureCount = 0;
le_uint16 lookupListCount = 0;
le_uint16 requiredFeatureIndex;
if (LE_FAILURE(success)) {
return;
}
if (scriptListOffset != 0) {
scriptListTable = (const ScriptListTable *) (baseAddress + scriptListOffset);
langSysTable = scriptListTable->findLanguage(scriptTag, languageTag);
if (langSysTable != 0) {
featureCount = SWAPW(langSysTable->featureCount);
}
}
if (featureListOffset != 0) {
featureListTable = (const FeatureListTable *) (baseAddress + featureListOffset);
}
if (lookupListOffset != 0) {
lookupListTable = (const LookupListTable *) (baseAddress + lookupListOffset);
lookupListCount = SWAPW(lookupListTable->lookupCount);
}
if (langSysTable == NULL || featureListTable == NULL || lookupListTable == NULL ||
featureCount == 0 || lookupListCount == 0) {
return;
}
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;
}
le_int32 count, order = 0;
le_int32 featureReferences = 0;
const FeatureTable *featureTable = NULL;
LETag featureTag;
const FeatureTable *requiredFeatureTable = NULL;
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.
for (le_int32 feature = 0; feature < featureCount; feature += 1) {
le_uint16 featureIndex = SWAPW(langSysTable->featureIndexArray[feature]);
featureTable = featureListTable->getFeatureTable(featureIndex, &featureTag);
featureReferences += SWAPW(featureTable->lookupCount);
}
if (requiredFeatureIndex != 0xFFFF) {
requiredFeatureTable = featureListTable->getFeatureTable(requiredFeatureIndex, &requiredFeatureTag);
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);
}
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) {
le_uint16 featureIndex = SWAPW(langSysTable->featureIndexArray[feature]);
// 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(featureIndex, &featureTag);
if (featureTag == fm.tag) {
count += selectLookups(featureTable, fm.mask, order + count);
}
}
if (count > 1) {
OpenTypeUtilities::sort(&lookupOrderArray[order], count);
}
order += count;
} else {
for (le_uint16 feature = 0; feature < featureCount; feature += 1) {
le_uint16 featureIndex = SWAPW(langSysTable->featureIndexArray[feature]);
// 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(featureIndex, &featureTag);
if (featureTag == fm.tag) {
order += selectLookups(featureTable, fm.mask, order);
}
}
}
}
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