blob: f93be038cc36b0edac540b5703a9e1c0fa60ed0a [file] [log] [blame]
/*
* Copyright (C) 2010 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.
*/
#undef LOG_TAG
#define LOG_TAG "BitmapRegionDecoder"
#include "BitmapRegionDecoder.h"
#include <HardwareBitmapUploader.h>
#include <androidfw/Asset.h>
#include <sys/stat.h>
#include <memory>
#include "BitmapFactory.h"
#include "CreateJavaOutputStreamAdaptor.h"
#include "Gainmap.h"
#include "GraphicsJNI.h"
#include "SkBitmap.h"
#include "SkCodec.h"
#include "SkColorSpace.h"
#include "SkData.h"
#include "SkGainmapInfo.h"
#include "SkStream.h"
#include "SkStreamPriv.h"
#include "Utils.h"
using namespace android;
namespace android {
class BitmapRegionDecoderWrapper {
public:
static std::unique_ptr<BitmapRegionDecoderWrapper> Make(sk_sp<SkData> data) {
std::unique_ptr<skia::BitmapRegionDecoder> mainImageBRD =
skia::BitmapRegionDecoder::Make(std::move(data));
if (!mainImageBRD) {
return nullptr;
}
SkGainmapInfo gainmapInfo;
std::unique_ptr<SkStream> gainmapStream;
std::unique_ptr<skia::BitmapRegionDecoder> gainmapBRD = nullptr;
if (mainImageBRD->getAndroidGainmap(&gainmapInfo, &gainmapStream)) {
sk_sp<SkData> data = nullptr;
if (gainmapStream->getMemoryBase()) {
// It is safe to make without copy because we'll hold onto the stream.
data = SkData::MakeWithoutCopy(gainmapStream->getMemoryBase(),
gainmapStream->getLength());
} else {
data = SkCopyStreamToData(gainmapStream.get());
// We don't need to hold the stream anymore
gainmapStream = nullptr;
}
gainmapBRD = skia::BitmapRegionDecoder::Make(std::move(data));
}
return std::unique_ptr<BitmapRegionDecoderWrapper>(
new BitmapRegionDecoderWrapper(std::move(mainImageBRD), std::move(gainmapBRD),
gainmapInfo, std::move(gainmapStream)));
}
SkEncodedImageFormat getEncodedFormat() { return mMainImageBRD->getEncodedFormat(); }
SkColorType computeOutputColorType(SkColorType requestedColorType) {
return mMainImageBRD->computeOutputColorType(requestedColorType);
}
sk_sp<SkColorSpace> computeOutputColorSpace(SkColorType outputColorType,
sk_sp<SkColorSpace> prefColorSpace = nullptr) {
return mMainImageBRD->computeOutputColorSpace(outputColorType, prefColorSpace);
}
bool decodeRegion(SkBitmap* bitmap, skia::BRDAllocator* allocator, const SkIRect& desiredSubset,
int sampleSize, SkColorType colorType, bool requireUnpremul,
sk_sp<SkColorSpace> prefColorSpace) {
return mMainImageBRD->decodeRegion(bitmap, allocator, desiredSubset, sampleSize, colorType,
requireUnpremul, prefColorSpace);
}
bool decodeGainmapRegion(sp<uirenderer::Gainmap>* outGainmap, const SkIRect& desiredSubset,
int sampleSize, bool requireUnpremul) {
SkColorType decodeColorType = mGainmapBRD->computeOutputColorType(kN32_SkColorType);
sk_sp<SkColorSpace> decodeColorSpace =
mGainmapBRD->computeOutputColorSpace(decodeColorType, nullptr);
SkBitmap bm;
HeapAllocator heapAlloc;
if (!mGainmapBRD->decodeRegion(&bm, &heapAlloc, desiredSubset, sampleSize, decodeColorType,
requireUnpremul, decodeColorSpace)) {
ALOGE("Error decoding Gainmap region");
return false;
}
sk_sp<Bitmap> nativeBitmap(heapAlloc.getStorageObjAndReset());
if (!nativeBitmap) {
ALOGE("OOM allocating Bitmap for Gainmap");
return false;
}
auto gainmap = sp<uirenderer::Gainmap>::make();
if (!gainmap) {
ALOGE("OOM allocating Gainmap");
return false;
}
gainmap->info = mGainmapInfo;
gainmap->bitmap = std::move(nativeBitmap);
*outGainmap = std::move(gainmap);
return true;
}
SkIRect calculateGainmapRegion(const SkIRect& mainImageRegion) {
const float scaleX = ((float)mGainmapBRD->width()) / mMainImageBRD->width();
const float scaleY = ((float)mGainmapBRD->height()) / mMainImageBRD->height();
// TODO: Account for rounding error?
return SkIRect::MakeLTRB(mainImageRegion.left() * scaleX, mainImageRegion.top() * scaleY,
mainImageRegion.right() * scaleX,
mainImageRegion.bottom() * scaleY);
}
bool hasGainmap() { return mGainmapBRD != nullptr; }
int width() const { return mMainImageBRD->width(); }
int height() const { return mMainImageBRD->height(); }
private:
BitmapRegionDecoderWrapper(std::unique_ptr<skia::BitmapRegionDecoder> mainImageBRD,
std::unique_ptr<skia::BitmapRegionDecoder> gainmapBRD,
SkGainmapInfo info, std::unique_ptr<SkStream> stream)
: mMainImageBRD(std::move(mainImageBRD))
, mGainmapBRD(std::move(gainmapBRD))
, mGainmapInfo(info)
, mGainmapStream(std::move(stream)) {}
std::unique_ptr<skia::BitmapRegionDecoder> mMainImageBRD;
std::unique_ptr<skia::BitmapRegionDecoder> mGainmapBRD;
SkGainmapInfo mGainmapInfo;
std::unique_ptr<SkStream> mGainmapStream;
};
} // namespace android
static jobject createBitmapRegionDecoder(JNIEnv* env, sk_sp<SkData> data) {
auto brd = android::BitmapRegionDecoderWrapper::Make(std::move(data));
if (!brd) {
doThrowIOE(env, "Image format not supported");
return nullObjectReturn("CreateBitmapRegionDecoder returned null");
}
return GraphicsJNI::createBitmapRegionDecoder(env, brd.release());
}
static jobject nativeNewInstanceFromByteArray(JNIEnv* env, jobject, jbyteArray byteArray,
jint offset, jint length) {
AutoJavaByteArray ar(env, byteArray);
return createBitmapRegionDecoder(env, SkData::MakeWithCopy(ar.ptr() + offset, length));
}
static jobject nativeNewInstanceFromFileDescriptor(JNIEnv* env, jobject clazz,
jobject fileDescriptor) {
NPE_CHECK_RETURN_ZERO(env, fileDescriptor);
jint descriptor = jniGetFDFromFileDescriptor(env, fileDescriptor);
struct stat fdStat;
if (fstat(descriptor, &fdStat) == -1) {
doThrowIOE(env, "broken file descriptor");
return nullObjectReturn("fstat return -1");
}
return createBitmapRegionDecoder(env, SkData::MakeFromFD(descriptor));
}
static jobject nativeNewInstanceFromStream(JNIEnv* env, jobject clazz, jobject is, // InputStream
jbyteArray storage) { // byte[]
jobject brd = nullptr;
sk_sp<SkData> data = CopyJavaInputStream(env, is, storage);
if (data) {
brd = createBitmapRegionDecoder(env, std::move(data));
}
return brd;
}
static jobject nativeNewInstanceFromAsset(JNIEnv* env, jobject clazz, jlong native_asset) {
Asset* asset = reinterpret_cast<Asset*>(native_asset);
sk_sp<SkData> data = CopyAssetToData(asset);
if (!data) {
return nullptr;
}
return createBitmapRegionDecoder(env, data);
}
/*
* nine patch not supported
* purgeable not supported
* reportSizeToVM not supported
*/
static jobject nativeDecodeRegion(JNIEnv* env, jobject, jlong brdHandle, jint inputX,
jint inputY, jint inputWidth, jint inputHeight, jobject options, jlong inBitmapHandle,
jlong colorSpaceHandle) {
// Set default options.
int sampleSize = 1;
SkColorType colorType = kN32_SkColorType;
bool requireUnpremul = false;
jobject javaBitmap = nullptr;
bool isHardware = false;
sk_sp<SkColorSpace> colorSpace = GraphicsJNI::getNativeColorSpace(colorSpaceHandle);
// Update the default options with any options supplied by the client.
if (NULL != options) {
sampleSize = env->GetIntField(options, gOptions_sampleSizeFieldID);
jobject jconfig = env->GetObjectField(options, gOptions_configFieldID);
colorType = GraphicsJNI::getNativeBitmapColorType(env, jconfig);
isHardware = GraphicsJNI::isHardwareConfig(env, jconfig);
requireUnpremul = !env->GetBooleanField(options, gOptions_premultipliedFieldID);
javaBitmap = env->GetObjectField(options, gOptions_bitmapFieldID);
// The Java options of ditherMode and preferQualityOverSpeed are deprecated. We will
// ignore the values of these fields.
// Initialize these fields to indicate a failure. If the decode succeeds, we
// will update them later on.
env->SetIntField(options, gOptions_widthFieldID, -1);
env->SetIntField(options, gOptions_heightFieldID, -1);
env->SetObjectField(options, gOptions_mimeFieldID, 0);
env->SetObjectField(options, gOptions_outConfigFieldID, 0);
env->SetObjectField(options, gOptions_outColorSpaceFieldID, 0);
}
// Recycle a bitmap if possible.
android::Bitmap* recycledBitmap = nullptr;
size_t recycledBytes = 0;
if (javaBitmap) {
recycledBitmap = &bitmap::toBitmap(inBitmapHandle);
if (recycledBitmap->isImmutable()) {
ALOGW("Warning: Reusing an immutable bitmap as an image decoder target.");
}
recycledBytes = recycledBitmap->getAllocationByteCount();
}
auto* brd = reinterpret_cast<BitmapRegionDecoderWrapper*>(brdHandle);
SkColorType decodeColorType = brd->computeOutputColorType(colorType);
if (isHardware) {
if (decodeColorType == kRGBA_F16_SkColorType &&
!uirenderer::HardwareBitmapUploader::hasFP16Support()) {
decodeColorType = kN32_SkColorType;
}
if (decodeColorType == kRGBA_1010102_SkColorType &&
!uirenderer::HardwareBitmapUploader::has1010102Support()) {
decodeColorType = kN32_SkColorType;
}
}
// Set up the pixel allocator
skia::BRDAllocator* allocator = nullptr;
RecyclingClippingPixelAllocator recycleAlloc(recycledBitmap, recycledBytes);
HeapAllocator heapAlloc;
if (javaBitmap) {
allocator = &recycleAlloc;
// We are required to match the color type of the recycled bitmap.
decodeColorType = recycledBitmap->info().colorType();
} else {
allocator = &heapAlloc;
}
sk_sp<SkColorSpace> decodeColorSpace = brd->computeOutputColorSpace(
decodeColorType, colorSpace);
// Decode the region.
SkIRect subset = SkIRect::MakeXYWH(inputX, inputY, inputWidth, inputHeight);
SkBitmap bitmap;
if (!brd->decodeRegion(&bitmap, allocator, subset, sampleSize,
decodeColorType, requireUnpremul, decodeColorSpace)) {
return nullObjectReturn("Failed to decode region.");
}
// If the client provided options, indicate that the decode was successful.
if (NULL != options) {
env->SetIntField(options, gOptions_widthFieldID, bitmap.width());
env->SetIntField(options, gOptions_heightFieldID, bitmap.height());
env->SetObjectField(options, gOptions_mimeFieldID,
getMimeTypeAsJavaString(env, brd->getEncodedFormat()));
if (env->ExceptionCheck()) {
return nullObjectReturn("OOM in encodedFormatToString()");
}
jint configID = GraphicsJNI::colorTypeToLegacyBitmapConfig(decodeColorType);
if (isHardware) {
configID = GraphicsJNI::kHardware_LegacyBitmapConfig;
}
jobject config = env->CallStaticObjectMethod(gBitmapConfig_class,
gBitmapConfig_nativeToConfigMethodID, configID);
env->SetObjectField(options, gOptions_outConfigFieldID, config);
env->SetObjectField(options, gOptions_outColorSpaceFieldID,
GraphicsJNI::getColorSpace(env, decodeColorSpace.get(), decodeColorType));
}
sp<uirenderer::Gainmap> gainmap;
bool hasGainmap = brd->hasGainmap();
if (hasGainmap) {
SkIRect gainmapSubset = brd->calculateGainmapRegion(subset);
if (!brd->decodeGainmapRegion(&gainmap, gainmapSubset, sampleSize, requireUnpremul)) {
// If there is an error decoding Gainmap - we don't fail. We just don't provide Gainmap
hasGainmap = false;
}
}
// If we may have reused a bitmap, we need to indicate that the pixels have changed.
if (javaBitmap) {
recycleAlloc.copyIfNecessary();
if (hasGainmap) {
recycledBitmap->setGainmap(std::move(gainmap));
}
bitmap::reinitBitmap(env, javaBitmap, recycledBitmap->info(), !requireUnpremul);
return javaBitmap;
}
int bitmapCreateFlags = 0;
if (!requireUnpremul) {
bitmapCreateFlags |= android::bitmap::kBitmapCreateFlag_Premultiplied;
}
if (isHardware) {
sk_sp<Bitmap> hardwareBitmap = Bitmap::allocateHardwareBitmap(bitmap);
if (hasGainmap) {
hardwareBitmap->setGainmap(std::move(gainmap));
}
return bitmap::createBitmap(env, hardwareBitmap.release(), bitmapCreateFlags);
}
Bitmap* heapBitmap = heapAlloc.getStorageObjAndReset();
if (hasGainmap && heapBitmap != nullptr) {
heapBitmap->setGainmap(std::move(gainmap));
}
return android::bitmap::createBitmap(env, heapBitmap, bitmapCreateFlags);
}
static jint nativeGetHeight(JNIEnv* env, jobject, jlong brdHandle) {
auto* brd = reinterpret_cast<BitmapRegionDecoderWrapper*>(brdHandle);
return static_cast<jint>(brd->height());
}
static jint nativeGetWidth(JNIEnv* env, jobject, jlong brdHandle) {
auto* brd = reinterpret_cast<BitmapRegionDecoderWrapper*>(brdHandle);
return static_cast<jint>(brd->width());
}
static void nativeClean(JNIEnv* env, jobject, jlong brdHandle) {
auto* brd = reinterpret_cast<BitmapRegionDecoderWrapper*>(brdHandle);
delete brd;
}
///////////////////////////////////////////////////////////////////////////////
static const JNINativeMethod gBitmapRegionDecoderMethods[] = {
{ "nativeDecodeRegion",
"(JIIIILandroid/graphics/BitmapFactory$Options;JJ)Landroid/graphics/Bitmap;",
(void*)nativeDecodeRegion},
{ "nativeGetHeight", "(J)I", (void*)nativeGetHeight},
{ "nativeGetWidth", "(J)I", (void*)nativeGetWidth},
{ "nativeClean", "(J)V", (void*)nativeClean},
{ "nativeNewInstance",
"([BII)Landroid/graphics/BitmapRegionDecoder;",
(void*)nativeNewInstanceFromByteArray
},
{ "nativeNewInstance",
"(Ljava/io/InputStream;[B)Landroid/graphics/BitmapRegionDecoder;",
(void*)nativeNewInstanceFromStream
},
{ "nativeNewInstance",
"(Ljava/io/FileDescriptor;)Landroid/graphics/BitmapRegionDecoder;",
(void*)nativeNewInstanceFromFileDescriptor
},
{ "nativeNewInstance",
"(J)Landroid/graphics/BitmapRegionDecoder;",
(void*)nativeNewInstanceFromAsset
},
};
int register_android_graphics_BitmapRegionDecoder(JNIEnv* env)
{
return android::RegisterMethodsOrDie(env, "android/graphics/BitmapRegionDecoder",
gBitmapRegionDecoderMethods, NELEM(gBitmapRegionDecoderMethods));
}