Google Git
Sign in
android / platform / frameworks / base / 604b284 / . / libs / hwui / jni / GraphicsJNI.h
blob: b58a740a4c2737f8c4b44815917479341b50e978 [file] [log] [blame]
#ifndef _ANDROID_GRAPHICS_GRAPHICS_JNI_H_
#define _ANDROID_GRAPHICS_GRAPHICS_JNI_H_
#include <cutils/compiler.h>
#include "Bitmap.h"
#include "SkBitmap.h"
#include "SkBRDAllocator.h"
#include "SkCodec.h"
#include "SkPixelRef.h"
#include "SkMallocPixelRef.h"
#include "SkPoint.h"
#include "SkRect.h"
#include "SkColorSpace.h"
#include <hwui/Canvas.h>
#include <hwui/Bitmap.h>
#include "graphics_jni_helpers.h"
class SkBitmapRegionDecoder;
class SkCanvas;
namespace android {
class Paint;
struct Typeface;
}
class GraphicsJNI {
public:
// This enum must keep these int values, to match the int values
// in the java Bitmap.Config enum.
enum LegacyBitmapConfig {
kNo_LegacyBitmapConfig = 0,
kA8_LegacyBitmapConfig = 1,
kIndex8_LegacyBitmapConfig = 2,
kRGB_565_LegacyBitmapConfig = 3,
kARGB_4444_LegacyBitmapConfig = 4,
kARGB_8888_LegacyBitmapConfig = 5,
kRGBA_16F_LegacyBitmapConfig = 6,
kHardware_LegacyBitmapConfig = 7,
kLastEnum_LegacyBitmapConfig = kHardware_LegacyBitmapConfig
};
static void setJavaVM(JavaVM* javaVM);
/** returns a pointer to the JavaVM provided when we initialized the module */
static JavaVM* getJavaVM() { return mJavaVM; }
/** return a pointer to the JNIEnv for this thread */
static JNIEnv* getJNIEnv();
/** create a JNIEnv* for this thread or assert if one already exists */
static JNIEnv* attachJNIEnv(const char* envName);
/** detach the current thread from the JavaVM */
static void detachJNIEnv();
// returns true if an exception is set (and dumps it out to the Log)
static bool hasException(JNIEnv*);
static void get_jrect(JNIEnv*, jobject jrect, int* L, int* T, int* R, int* B);
static void set_jrect(JNIEnv*, jobject jrect, int L, int T, int R, int B);
static SkIRect* jrect_to_irect(JNIEnv*, jobject jrect, SkIRect*);
static void irect_to_jrect(const SkIRect&, JNIEnv*, jobject jrect);
static SkRect* jrectf_to_rect(JNIEnv*, jobject jrectf, SkRect*);
static SkRect* jrect_to_rect(JNIEnv*, jobject jrect, SkRect*);
static void rect_to_jrectf(const SkRect&, JNIEnv*, jobject jrectf);
static void set_jpoint(JNIEnv*, jobject jrect, int x, int y);
static SkIPoint* jpoint_to_ipoint(JNIEnv*, jobject jpoint, SkIPoint* point);
static void ipoint_to_jpoint(const SkIPoint& point, JNIEnv*, jobject jpoint);
static SkPoint* jpointf_to_point(JNIEnv*, jobject jpointf, SkPoint* point);
static void point_to_jpointf(const SkPoint& point, JNIEnv*, jobject jpointf);
ANDROID_API static android::Canvas* getNativeCanvas(JNIEnv*, jobject canvas);
static android::Bitmap* getNativeBitmap(JNIEnv*, jobject bitmap);
static SkImageInfo getBitmapInfo(JNIEnv*, jobject bitmap, uint32_t* outRowBytes,
bool* isHardware);
static SkRegion* getNativeRegion(JNIEnv*, jobject region);
/*
* LegacyBitmapConfig is the old enum in Skia that matched the enum int values
* in Bitmap.Config. Skia no longer supports this config, but has replaced it
* with SkColorType. These routines convert between the two.
*/
static SkColorType legacyBitmapConfigToColorType(jint legacyConfig);
static jint colorTypeToLegacyBitmapConfig(SkColorType colorType);
/** Return the corresponding native colorType from the java Config enum,
or kUnknown_SkColorType if the java object is null.
*/
static SkColorType getNativeBitmapColorType(JNIEnv*, jobject jconfig);
static AndroidBitmapFormat getFormatFromConfig(JNIEnv* env, jobject jconfig);
static jobject getConfigFromFormat(JNIEnv* env, AndroidBitmapFormat format);
static bool isHardwareConfig(JNIEnv* env, jobject jconfig);
static jint hardwareLegacyBitmapConfig();
static jobject createRegion(JNIEnv* env, SkRegion* region);
static jobject createBitmapRegionDecoder(JNIEnv* env, SkBitmapRegionDecoder* bitmap);
/**
* Given a bitmap we natively allocate a memory block to store the contents
* of that bitmap. The memory is then attached to the bitmap via an
* SkPixelRef, which ensures that upon deletion the appropriate caches
* are notified.
*/
static bool allocatePixels(JNIEnv* env, SkBitmap* bitmap);
/** Copy the colors in colors[] to the bitmap, convert to the correct
format along the way.
Whether to use premultiplied pixels is determined by dstBitmap's alphaType.
*/
static bool SetPixels(JNIEnv* env, jintArray colors, int srcOffset,
int srcStride, int x, int y, int width, int height,
SkBitmap* dstBitmap);
/**
* Convert the native SkColorSpace retrieved from ColorSpace.Rgb.getNativeInstance().
*
* This will never throw an Exception. If the ColorSpace is one that Skia cannot
* use, ColorSpace.Rgb.getNativeInstance() would have thrown an Exception. It may,
* however, be nullptr, which may be acceptable.
*/
static sk_sp<SkColorSpace> getNativeColorSpace(jlong colorSpaceHandle);
/**
* Return the android.graphics.ColorSpace Java object that corresponds to decodeColorSpace
* and decodeColorType.
*
* This may create a new object if none of the Named ColorSpaces match.
*/
static jobject getColorSpace(JNIEnv* env, SkColorSpace* decodeColorSpace,
SkColorType decodeColorType);
/**
* Convert from a Java @ColorLong to an SkColor4f that Skia can use directly.
*
* This ignores the encoded ColorSpace, besides checking to see if it is sRGB,
* which is encoded differently. The color space should be passed down separately
* via ColorSpace#getNativeInstance(), and converted with getNativeColorSpace(),
* above.
*/
static SkColor4f convertColorLong(jlong color);
private:
/* JNI JavaVM pointer */
static JavaVM* mJavaVM;
};
class HeapAllocator : public SkBRDAllocator {
public:
HeapAllocator() { };
~HeapAllocator() { };
virtual bool allocPixelRef(SkBitmap* bitmap) override;
/**
* Fetches the backing allocation object. Must be called!
*/
android::Bitmap* getStorageObjAndReset() {
return mStorage.release();
};
SkCodec::ZeroInitialized zeroInit() const override { return SkCodec::kYes_ZeroInitialized; }
private:
sk_sp<android::Bitmap> mStorage;
};
/**
* Allocator to handle reusing bitmaps for BitmapRegionDecoder.
*
* The BitmapRegionDecoder documentation states that, if it is
* provided, the recycled bitmap will always be reused, clipping
* the decoded output to fit in the recycled bitmap if necessary.
* This allocator implements that behavior.
*
* Skia's SkBitmapRegionDecoder expects the memory that
* is allocated to be large enough to decode the entire region
* that is requested. It will decode directly into the memory
* that is provided.
*
* FIXME: BUG:25465958
* If the recycled bitmap is not large enough for the decode
* requested, meaning that a clip is required, we will allocate
* enough memory for Skia to perform the decode, and then copy
* from the decoded output into the recycled bitmap.
*
* If the recycled bitmap is large enough for the decode requested,
* we will provide that memory for Skia to decode directly into.
*
* This allocator should only be used for a single allocation.
* After we reuse the recycledBitmap once, it is dangerous to
* reuse it again, given that it still may be in use from our
* first allocation.
*/
class RecyclingClippingPixelAllocator : public SkBRDAllocator {
public:
RecyclingClippingPixelAllocator(android::Bitmap* recycledBitmap,
size_t recycledBytes);
~RecyclingClippingPixelAllocator();
virtual bool allocPixelRef(SkBitmap* bitmap) override;
/**
* Must be called!
*
* In the event that the recycled bitmap is not large enough for
* the allocation requested, we will allocate memory on the heap
* instead. As a final step, once we are done using this memory,
* we will copy the contents of the heap memory into the recycled
* bitmap's memory, clipping as necessary.
*/
void copyIfNecessary();
/**
* Indicates that this allocator does not allocate zero initialized
* memory.
*/
SkCodec::ZeroInitialized zeroInit() const override { return SkCodec::kNo_ZeroInitialized; }
private:
android::Bitmap* mRecycledBitmap;
const size_t mRecycledBytes;
SkBitmap* mSkiaBitmap;
bool mNeedsCopy;
};
class AshmemPixelAllocator : public SkBitmap::Allocator {
public:
explicit AshmemPixelAllocator(JNIEnv* env);
~AshmemPixelAllocator() { };
virtual bool allocPixelRef(SkBitmap* bitmap);
android::Bitmap* getStorageObjAndReset() {
return mStorage.release();
};
private:
JavaVM* mJavaVM;
sk_sp<android::Bitmap> mStorage;
};
enum JNIAccess {
kRO_JNIAccess,
kRW_JNIAccess
};
class AutoJavaFloatArray {
public:
AutoJavaFloatArray(JNIEnv* env, jfloatArray array,
int minLength = 0, JNIAccess = kRW_JNIAccess);
~AutoJavaFloatArray();
float* ptr() const { return fPtr; }
int length() const { return fLen; }
private:
JNIEnv* fEnv;
jfloatArray fArray;
float* fPtr;
int fLen;
int fReleaseMode;
};
class AutoJavaIntArray {
public:
AutoJavaIntArray(JNIEnv* env, jintArray array, int minLength = 0);
~AutoJavaIntArray();
jint* ptr() const { return fPtr; }
int length() const { return fLen; }
private:
JNIEnv* fEnv;
jintArray fArray;
jint* fPtr;
int fLen;
};
class AutoJavaShortArray {
public:
AutoJavaShortArray(JNIEnv* env, jshortArray array,
int minLength = 0, JNIAccess = kRW_JNIAccess);
~AutoJavaShortArray();
jshort* ptr() const { return fPtr; }
int length() const { return fLen; }
private:
JNIEnv* fEnv;
jshortArray fArray;
jshort* fPtr;
int fLen;
int fReleaseMode;
};
class AutoJavaByteArray {
public:
AutoJavaByteArray(JNIEnv* env, jbyteArray array, int minLength = 0);
~AutoJavaByteArray();
jbyte* ptr() const { return fPtr; }
int length() const { return fLen; }
private:
JNIEnv* fEnv;
jbyteArray fArray;
jbyte* fPtr;
int fLen;
};
void doThrowNPE(JNIEnv* env);
void doThrowAIOOBE(JNIEnv* env); // Array Index Out Of Bounds Exception
void doThrowIAE(JNIEnv* env, const char* msg = NULL); // Illegal Argument
void doThrowRE(JNIEnv* env, const char* msg = NULL); // Runtime
void doThrowISE(JNIEnv* env, const char* msg = NULL); // Illegal State
void doThrowOOME(JNIEnv* env, const char* msg = NULL); // Out of memory
void doThrowIOE(JNIEnv* env, const char* msg = NULL); // IO Exception
#define NPE_CHECK_RETURN_ZERO(env, object) \
do { if (NULL == (object)) { doThrowNPE(env); return 0; } } while (0)
#define NPE_CHECK_RETURN_VOID(env, object) \
do { if (NULL == (object)) { doThrowNPE(env); return; } } while (0)
#endif // _ANDROID_GRAPHICS_GRAPHICS_JNI_H_