}
}
} else if (strcmp16(block.getElementName(&len), string_array16.string()) == 0) {
+ // Check whether these strings need valid formats.
+ // (simplified form of what string16 does above)
+ size_t n = block.getAttributeCount();
+ for (size_t i = 0; i < n; i++) {
+ size_t length;
+ const uint16_t* attr = block.getAttributeName(i, &length);
+ if (strcmp16(attr, translatable16.string()) == 0
+ || strcmp16(attr, formatted16.string()) == 0) {
+ const uint16_t* value = block.getAttributeStringValue(i, &length);
+ if (strcmp16(value, false16.string()) == 0) {
+ curIsFormatted = false;
+ break;
+ }
+ }
+ }
+
curTag = &string_array16;
curType = array16;
curFormat = ResTable_map::TYPE_REFERENCE|ResTable_map::TYPE_STRING;
if (configSet.count(defaultLocale) == 0) {
fprintf(stdout, "aapt: warning: string '%s' has no default translation in %s; found:",
String8(nameIter->first).string(), mBundle->getResourceSourceDirs()[0]);
- for (set<String8>::iterator locales = configSet.begin();
+ for (set<String8>::const_iterator locales = configSet.begin();
locales != configSet.end();
locales++) {
fprintf(stdout, " %s", (*locales).string());
}
bool
-ResourceFilter::match(int axis, uint32_t value)
+ResourceFilter::match(int axis, uint32_t value) const
{
if (value == 0) {
// they didn't specify anything so take everything
}
bool
-ResourceFilter::match(const ResTable_config& config)
+ResourceFilter::match(const ResTable_config& config) const
{
if (config.locale) {
uint32_t locale = (config.country[1] << 24) | (config.country[0] << 16)
const size_t N = mOrderedPackages.size();
size_t pi;
+ const static String16 mipmap16("mipmap");
+
bool useUTF8 = !bundle->getWantUTF16() && bundle->isMinSdkAtLeast(SDK_FROYO);
// Iterate through all data, collecting all values (strings,
typeStrings.add(String16("<empty>"), false);
continue;
}
- typeStrings.add(t->getName(), false);
+ const String16 typeName(t->getName());
+ typeStrings.add(typeName, false);
+
+ const bool filterable = (typeName != mipmap16);
const size_t N = t->getOrderedConfigs().size();
for (size_t ci=0; ci<N; ci++) {
const size_t N = c->getEntries().size();
for (size_t ei=0; ei<N; ei++) {
ConfigDescription config = c->getEntries().keyAt(ei);
- if (!filter.match(config)) {
+ if (filterable && !filter.match(config)) {
continue;
}
sp<Entry> e = c->getEntries().valueAt(ei);
"Type name %s not found",
String8(typeName).string());
+ const bool filterable = (typeName != mipmap16);
+
const size_t N = t != NULL ? t->getOrderedConfigs().size() : 0;
// First write the typeSpec chunk, containing information about
(((uint8_t*)data->editData())
+ typeSpecStart + sizeof(ResTable_typeSpec));
memset(typeSpecFlags, 0, sizeof(uint32_t)*N);
-
+
for (size_t ei=0; ei<N; ei++) {
sp<ConfigList> cl = t->getOrderedConfigs().itemAt(ei);
if (cl->getPublic()) {
}
const size_t CN = cl->getEntries().size();
for (size_t ci=0; ci<CN; ci++) {
- if (!filter.match(cl->getEntries().keyAt(ci))) {
+ if (filterable && !filter.match(cl->getEntries().keyAt(ci))) {
continue;
}
for (size_t cj=ci+1; cj<CN; cj++) {
- if (!filter.match(cl->getEntries().keyAt(cj))) {
+ if (filterable && !filter.match(cl->getEntries().keyAt(cj))) {
continue;
}
typeSpecFlags[ei] |= htodl(
config.screenWidth,
config.screenHeight));
- if (!filter.match(config)) {
+ if (filterable && !filter.match(config)) {
continue;
}