/hardware/libhardware/modules/sensors/ |
H A D | SensorEventQueue.cpp | 26 SensorEventQueue::SensorEventQueue(int capacity) { argument 27 mCapacity = capacity;
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/hardware/google/av/codec2/vndk/bufferpool/vts/ |
H A D | allocator.cpp | 22 uint32_t capacity; member in struct:Params::__anon240 49 ionParams.data.capacity, ionParams.data.usage, &linearAlloc); 56 *allocSize = ionParams.data.capacity;
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/hardware/google/av/media/codecs/aac/ |
H A D | C2SoftAacEnc.cpp | 300 size_t capacity = 0u; local 304 capacity = view.capacity(); 308 size_t numFrames = (capacity + mInputSize + (eos ? mNumBytesPerInputFrame - 1 : 0)) 310 ALOGV("capacity = %u; mInputSize = %zu; numFrames = %zu mNumBytesPerInputFrame = %u", 311 capacity, mInputSize, numFrames, mNumBytesPerInputFrame); 335 inargs.numInSamples = capacity / sizeof(int16_t); 339 INT inBufferSize[] = { (INT)capacity }; 380 int consumed = ((capacity / sizeof(int16_t)) - inargs.numInSamples);
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/hardware/google/av/codec2/tests/vndk/ |
H A D | C2BufferTest.cpp | 199 static_assert(TestCapacity(0u).capacity() == 0u, ""); 201 static_assert(TestCapacity(&cap).capacity() == 123u, ""); 202 static_assert(TestCapacity(nullptr).capacity() == 0u, ""); 205 static_assert(TestRange(&cap).capacity() == 123u, ""); 212 static_assert(range.capacity() == 123u, ""); 217 static_assert(TestRange(&cap, 20u, 30u).capacity() == 123u, ""); 222 static_assert(TestRange(&cap, 200u, 30u).capacity() == 123u, ""); 244 void allocateLinear(size_t capacity) { argument 246 capacity, 382 ASSERT_EQ(kCapacity, writeView.capacity()); [all...] |
/hardware/google/av/codec2/vndk/ |
H A D | C2AllocatorIon.cpp | 158 * \param capacity size of allocation 165 Impl(int ionFd, size_t capacity, int bufferFd, ion_user_handle_t buffer, C2Allocator::id_t id, int err) argument 167 mHandle(bufferFd, capacity), 188 * \param capacity size of allocation 194 static Impl *Import(int ionFd, size_t capacity, int bufferFd, C2Allocator::id_t id) { argument 197 return new Impl(ionFd, capacity, bufferFd, buffer, id, ret); 468 C2MemoryUsage usage, size_t capacity, size_t *align, unsigned *heapMask, unsigned *flags) { 471 // align capacity 472 capacity = (capacity 467 mapUsage( C2MemoryUsage usage, size_t capacity, size_t *align, unsigned *heapMask, unsigned *flags) argument 503 newLinearAllocation( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr<C2LinearAllocation> *allocation) argument [all...] |
H A D | C2Buffer.cpp | 215 * range). range of View is 0 to capacity() (not represented as an actual range). This maps to a 253 // UGLY: _C2LinearRangeAspect requires a bona-fide object for capacity to prevent spoofing, so 331 uint32_t capacity, 337 c2_status_t err = mAllocator->newLinearAllocation(capacity, usage, &alloc); 455 * @param capacity size of linear allocation 459 void getLinearParams(uint32_t capacity, C2MemoryUsage usage, 510 AllocParams(C2MemoryUsage usage, uint32_t capacity) argument 511 : data{ALLOC_LINEAR, usage, {[0] = capacity}} {} 618 uint32_t capacity, C2MemoryUsage usage, std::vector<uint8_t> *params) { 619 AllocParams c2Params(usage, capacity); 330 fetchLinearBlock( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr<C2LinearBlock> *block ) argument 617 getLinearParams( uint32_t capacity, C2MemoryUsage usage, std::vector<uint8_t> *params) argument 663 fetchLinearBlock( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr<C2LinearBlock> *block ) argument 754 fetchLinearBlock( uint32_t capacity, C2MemoryUsage usage, std::shared_ptr<C2LinearBlock> *block ) argument [all...] |
/hardware/google/av/media/sfplugin/ |
H A D | CCodecBufferChannel.cpp | 279 * Return an ABuffer object whose size is at least |capacity|. 281 * \param capacity requested capacity 282 * \return nullptr if the pool capacity is reached 285 sp<ABuffer> newBuffer(size_t capacity) { argument 289 [capacity](const std::vector<uint8_t> &vec) { 290 return vec.capacity() >= capacity; 297 if (mUsedSize + capacity > mPoolCapacity) { 299 mUsedSize -= mPool.back().capacity(); 650 int32_t capacity = kLinearBufferSize; variable 674 int32_t capacity = kLinearBufferSize; variable [all...] |
/hardware/google/av/codec2/include/ |
H A D | C2Buffer.h | 337 * Common aspect for all objects that have a linear capacity. 340 /// \name Linear capacity interface 343 inline constexpr uint32_t capacity() const { return mCapacity; } function in class:_C2LinearCapacityAspect 356 inline explicit _C2LinearCapacityAspect(size_t capacity) = delete; member in class:_C2LinearCapacityAspect 359 inline explicit constexpr _C2LinearCapacityAspect(uint32_t capacity) argument 360 : mCapacity(capacity) { } 363 : mCapacity(parent == nullptr ? 0 : parent->capacity()) { } 371 * Aspect for objects that have a linear range inside a linear capacity. 388 // subrange of capacity [0, capacity] 460 C2LinearCapacity(size_t capacity) argument 822 C2LinearAllocation(size_t capacity) argument [all...] |
H A D | C2Config.h | 965 uint32_t capacity; ///< buffer capacity to be allocated if 1D member in struct:C2OutOfMemoryStruct 973 C2FIELD(capacity, "capacity") 1840 : usage(usage_), capacity(capacity_), heapMask(0), allocFlags(0), minAlignment(0) { } 1843 uint32_t capacity; ///< capacity member in struct:C2StoreIonUsageStruct 1850 C2FIELD(capacity, "capacity")
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/hardware/google/av/media/codecs/avc/ |
H A D | C2SoftAvcEnc.cpp | 901 uint32_t capacity, 908 ps_encode_ip->s_out_buf.u4_bufsize = capacity; 1182 &s_encode_ip, &s_encode_op, view.get(), wView.base(), wView.capacity(), timestamp); 896 setEncodeArgs( ive_video_encode_ip_t *ps_encode_ip, ive_video_encode_op_t *ps_encode_op, const C2GraphicView *const input, uint8_t *base, uint32_t capacity, uint64_t timestamp) argument
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