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/*
* Copyright (C) 2016 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "split/TableSplitter.h"
#include <algorithm>
#include <map>
#include <set>
#include <unordered_set>
#include <unordered_map>
#include <vector>
#include "android-base/logging.h"
#include "ConfigDescription.h"
#include "ResourceTable.h"
#include "util/Util.h"
namespace aapt {
using ConfigClaimedMap = std::unordered_map<ResourceConfigValue*, bool>;
using ConfigDensityGroups = std::map<ConfigDescription, std::vector<ResourceConfigValue*>>;
static ConfigDescription CopyWithoutDensity(const ConfigDescription& config) {
ConfigDescription without_density = config;
without_density.density = 0;
return without_density;
}
/**
* Selects values that match exactly the constraints given.
*/
class SplitValueSelector {
public:
explicit SplitValueSelector(const SplitConstraints& constraints) {
for (const ConfigDescription& config : constraints.configs) {
if (config.density == 0) {
density_independent_configs_.insert(config);
} else {
density_dependent_config_to_density_map_[CopyWithoutDensity(config)] = config.density;
}
}
}
std::vector<ResourceConfigValue*> SelectValues(
const ConfigDensityGroups& density_groups,
ConfigClaimedMap* claimed_values) {
std::vector<ResourceConfigValue*> selected;
// Select the regular values.
for (auto& entry : *claimed_values) {
// Check if the entry has a density.
ResourceConfigValue* config_value = entry.first;
if (config_value->config.density == 0 && !entry.second) {
// This is still available.
if (density_independent_configs_.find(config_value->config) !=
density_independent_configs_.end()) {
selected.push_back(config_value);
// Mark the entry as taken.
entry.second = true;
}
}
}
// Now examine the densities
for (auto& entry : density_groups) {
// We do not care if the value is claimed, since density values can be
// in multiple splits.
const ConfigDescription& config = entry.first;
const std::vector<ResourceConfigValue*>& related_values = entry.second;
auto density_value_iter =
density_dependent_config_to_density_map_.find(config);
if (density_value_iter !=
density_dependent_config_to_density_map_.end()) {
// Select the best one!
ConfigDescription target_density = config;
target_density.density = density_value_iter->second;
ResourceConfigValue* best_value = nullptr;
for (ResourceConfigValue* this_value : related_values) {
if (!best_value || this_value->config.isBetterThan(best_value->config, &target_density)) {
best_value = this_value;
}
}
CHECK(best_value != nullptr);
// When we select one of these, they are all claimed such that the base
// doesn't include any anymore.
(*claimed_values)[best_value] = true;
selected.push_back(best_value);
}
}
return selected;
}
private:
DISALLOW_COPY_AND_ASSIGN(SplitValueSelector);
std::set<ConfigDescription> density_independent_configs_;
std::map<ConfigDescription, uint16_t>
density_dependent_config_to_density_map_;
};
/**
* Marking non-preferred densities as claimed will make sure the base doesn't include them, leaving
* only the preferred density behind.
*/
static void MarkNonPreferredDensitiesAsClaimed(
const std::vector<uint16_t>& preferred_densities, const ConfigDensityGroups& density_groups,
ConfigClaimedMap* config_claimed_map) {
for (auto& entry : density_groups) {
const ConfigDescription& config = entry.first;
const std::vector<ResourceConfigValue*>& related_values = entry.second;
// There can be multiple best values if there are multiple preferred densities.
std::unordered_set<ResourceConfigValue*> best_values;
// For each preferred density, find the value that is the best.
for (uint16_t preferred_density : preferred_densities) {
ConfigDescription target_density = config;
target_density.density = preferred_density;
ResourceConfigValue* best_value = nullptr;
for (ResourceConfigValue* this_value : related_values) {
if (!best_value || this_value->config.isBetterThan(best_value->config, &target_density)) {
best_value = this_value;
}
}
CHECK(best_value != nullptr);
best_values.insert(best_value);
}
// Claim all the values that aren't the best so that they will be removed from the base.
for (ResourceConfigValue* this_value : related_values) {
if (best_values.find(this_value) == best_values.end()) {
(*config_claimed_map)[this_value] = true;
}
}
}
}
bool TableSplitter::VerifySplitConstraints(IAaptContext* context) {
bool error = false;
for (size_t i = 0; i < split_constraints_.size(); i++) {
for (size_t j = i + 1; j < split_constraints_.size(); j++) {
for (const ConfigDescription& config : split_constraints_[i].configs) {
if (split_constraints_[j].configs.find(config) != split_constraints_[j].configs.end()) {
context->GetDiagnostics()->Error(DiagMessage()
<< "config '" << config
<< "' appears in multiple splits, "
<< "target split ambiguous");
error = true;
}
}
}
}
return !error;
}
void TableSplitter::SplitTable(ResourceTable* original_table) {
const size_t split_count = split_constraints_.size();
for (auto& pkg : original_table->packages) {
// Initialize all packages for splits.
for (size_t idx = 0; idx < split_count; idx++) {
ResourceTable* split_table = splits_[idx].get();
split_table->CreatePackage(pkg->name, pkg->id);
}
for (auto& type : pkg->types) {
if (type->type == ResourceType::kMipmap) {
// Always keep mipmaps.
continue;
}
for (auto& entry : type->entries) {
if (options_.config_filter) {
// First eliminate any resource that we definitely don't want.
for (std::unique_ptr<ResourceConfigValue>& config_value : entry->values) {
if (!options_.config_filter->Match(config_value->config)) {
// null out the entry. We will clean up and remove nulls at the end for performance
// reasons.
config_value.reset();
}
}
}
// Organize the values into two separate buckets. Those that are density-dependent and those
// that are density-independent. One density technically matches all density, it's just that
// some densities match better. So we need to be aware of the full set of densities to make
// this decision.
ConfigDensityGroups density_groups;
ConfigClaimedMap config_claimed_map;
for (const std::unique_ptr<ResourceConfigValue>& config_value : entry->values) {
if (config_value) {
config_claimed_map[config_value.get()] = false;
if (config_value->config.density != 0) {
// Create a bucket for this density-dependent config.
density_groups[CopyWithoutDensity(config_value->config)]
.push_back(config_value.get());
}
}
}
// First we check all the splits. If it doesn't match one of the splits, we leave it in the
// base.
for (size_t idx = 0; idx < split_count; idx++) {
const SplitConstraints& split_constraint = split_constraints_[idx];
ResourceTable* split_table = splits_[idx].get();
// Select the values we want from this entry for this split.
SplitValueSelector selector(split_constraint);
std::vector<ResourceConfigValue*> selected_values =
selector.SelectValues(density_groups, &config_claimed_map);
// No need to do any work if we selected nothing.
if (!selected_values.empty()) {
// Create the same resource structure in the split. We do this lazily because we might
// not have actual values for each type/entry.
ResourceTablePackage* split_pkg = split_table->FindPackage(pkg->name);
ResourceTableType* split_type = split_pkg->FindOrCreateType(type->type);
if (!split_type->id) {
split_type->id = type->id;
split_type->visibility_level = type->visibility_level;
}
ResourceEntry* split_entry = split_type->FindOrCreateEntry(entry->name);
if (!split_entry->id) {
split_entry->id = entry->id;
split_entry->visibility = entry->visibility;
}
// Copy the selected values into the new Split Entry.
for (ResourceConfigValue* config_value : selected_values) {
ResourceConfigValue* new_config_value =
split_entry->FindOrCreateValue(config_value->config, config_value->product);
new_config_value->value = std::unique_ptr<Value>(
config_value->value->Clone(&split_table->string_pool));
}
}
}
if (!options_.preferred_densities.empty()) {
MarkNonPreferredDensitiesAsClaimed(options_.preferred_densities,
density_groups,
&config_claimed_map);
}
// All splits are handled, now check to see what wasn't claimed and remove whatever exists
// in other splits.
for (std::unique_ptr<ResourceConfigValue>& config_value : entry->values) {
if (config_value && config_claimed_map[config_value.get()]) {
// Claimed, remove from base.
config_value.reset();
}
}
// Now erase all nullptrs.
entry->values.erase(
std::remove(entry->values.begin(), entry->values.end(), nullptr),
entry->values.end());
}
}
}
}
} // namespace aapt