| /external/chromium_org/media/cast/test/utility/ |
| H A D | barcode.cc | 52 size_t unit_size = row_bytes * 6 / 10 / units; local
53 if (unit_size < 1) return false;
54 size_t bytes_required = unit_size * units;
58 memset(pos, 0, unit_size);
59 pos += unit_size * 2;
60 memset(pos, 0, unit_size);
61 pos += unit_size * 2;
63 memset(pos, 0, bits[bit] ? unit_size * 2: unit_size);
64 pos += unit_size *
111 double unit_size = (i[1] + i[2] + i[3] + i[4]) / 4; local
[all...] |
| /external/pdfium/core/src/fxcodec/jbig2/ |
| H A D | JBig2_Object.cpp | 35 void *CJBig2_Object::operator new[](size_t size, CJBig2_Module *pModule, size_t unit_size,
argument
43 for(; pCur < pEnd; pCur += unit_size) {
48 void CJBig2_Object::operator delete[](void *p, CJBig2_Module *pModule, size_t unit_size,
argument
53 void *CJBig2_Object::operator new[](size_t size, CJBig2_Module *pModule, size_t unit_size)
argument
60 for(; pCur < pEnd; pCur += unit_size) {
69 void CJBig2_Object::operator delete[](void *p, CJBig2_Module *pModule, size_t unit_size)
argument
|
| H A D | JBig2_Object.h | 26 void *operator new[](size_t size, CJBig2_Module *pModule, size_t unit_size,
29 void operator delete[](void *p, CJBig2_Module *pModule, size_t unit_size,
32 void *operator new[](size_t size, CJBig2_Module *pModule, size_t unit_size);
36 void operator delete[](void *p, CJBig2_Module *pModule, size_t unit_size);
|
| /external/chromium_org/third_party/fips181/ |
| H A D | fips181.h | 76 boolean have_initial_y (USHORT *units, USHORT unit_size);
79 boolean have_final_split (USHORT *units, USHORT unit_size);
|
| H A D | fips181.cc | 1569 have_initial_y (USHORT *units, USHORT unit_size) argument
1578 for (unit_count = 0; unit_count <= unit_size; unit_count++)
1607 have_final_split (USHORT *units, USHORT unit_size) argument
1617 for (unit_count = 0; unit_count <= unit_size; unit_count++)
1626 (rules[units[unit_size]].flags & NO_FINAL_SPLIT));
|
| /external/pdfium/core/src/fxcrt/ |
| H A D | fx_basic_array.cpp | 8 CFX_BasicArray::CFX_BasicArray(int unit_size, IFX_Allocator* pAllocator)
argument
15 if (unit_size < 0 || unit_size > (1 << 28)) {
18 m_nUnitSize = unit_size;
147 CFX_BaseSegmentedArray::CFX_BaseSegmentedArray(int unit_size, int segment_units, int index_size, IFX_Allocator* pAllocator)
argument
149 , m_UnitSize(unit_size)
157 void CFX_BaseSegmentedArray::SetUnitSize(int unit_size, int segment_units, int index_size)
argument
160 m_UnitSize = unit_size;
|
| /external/chromium_org/v8/src/arm64/ |
| H A D | macro-assembler-arm64-inl.h | 1505 void MacroAssembler::Claim(uint64_t count, uint64_t unit_size) { argument
1506 uint64_t size = count * unit_size;
1522 void MacroAssembler::Claim(const Register& count, uint64_t unit_size) { argument
1523 if (unit_size == 0) return;
1524 DCHECK(base::bits::IsPowerOfTwo64(unit_size));
1526 const int shift = CountTrailingZeros(unit_size, kXRegSizeInBits);
1541 void MacroAssembler::ClaimBySMI(const Register& count_smi, uint64_t unit_size) { argument
1542 DCHECK(unit_size == 0 || base::bits::IsPowerOfTwo64(unit_size));
1543 const int shift = CountTrailingZeros(unit_size, kXRegSizeInBit
1560 Drop(uint64_t count, uint64_t unit_size) argument
1580 Drop(const Register& count, uint64_t unit_size) argument
1602 DropBySMI(const Register& count_smi, uint64_t unit_size) argument
[all...] |
| H A D | macro-assembler-arm64.h | 703 // Note that unit_size must be specified in bytes. For variants which take a
705 inline void Claim(uint64_t count, uint64_t unit_size = kXRegSize);
707 uint64_t unit_size = kXRegSize);
708 inline void Drop(uint64_t count, uint64_t unit_size = kXRegSize);
710 uint64_t unit_size = kXRegSize);
715 uint64_t unit_size = kXRegSize);
717 uint64_t unit_size = kXRegSize);
|
| /external/pdfium/core/include/fxcrt/ |
| H A D | fx_memory.h | 51 void* FXMEM_DefaultAlloc2(size_t units, size_t unit_size, int flags);
53 void* FXMEM_DefaultRealloc2(void* pointer, size_t units, size_t unit_size, int flags);
|
| H A D | fx_basic.h | 378 CFX_BasicArray(int unit_size, IFX_Allocator* pAllocator = NULL);
696 CFX_BaseSegmentedArray(int unit_size = 1, int segment_units = 512, int index_size = 8, IFX_Allocator* pAllocator = NULL);
700 void SetUnitSize(int unit_size, int segment_units, int index_size = 8);
666 FXSYS_assert(index < m_nSize); return *(ObjectClass*)CFX_BasicArray::GetDataPtr(index); } ObjectClass* GetDataPtr(int index) { return (ObjectClass*)CFX_BasicArray::GetDataPtr(index); } void RemoveAt(int index) { FXSYS_assert(index < m_nSize); ((ObjectClass*)GetDataPtr(index))->~ObjectClass(); CFX_BasicArray::RemoveAt(index, 1); } void RemoveAll() { for (int i = 0; i < m_nSize; i ++) { ((ObjectClass*)GetDataPtr(i))->~ObjectClass(); } CFX_BasicArray::SetSize(0, -1); } }; typedef CFX_ObjectArray<CFX_ByteString> CFX_ByteStringArray; typedef CFX_ObjectArray<CFX_WideString> CFX_WideStringArray; class CFX_BaseSegmentedArray : public CFX_Object { public: CFX_BaseSegmentedArray(int unit_size = 1, int segment_units = 512, int index_size = 8, IFX_Allocator* pAllocator = NULL); ~CFX_BaseSegmentedArray(); void SetUnitSize(int unit_size, int segment_units, int index_size = 8); void* Add(); void* GetAt(int index) const; void RemoveAll(); void Delete(int index, int count = 1); int GetSize() const { return m_DataSize; } int GetSegmentSize() const { return m_SegmentSize; } int GetUnitSize() const { return m_UnitSize; } void* Iterate(FX_BOOL (*callback)(void* param, void* pData), void* param) const; IFX_Allocator* m_pAllocator; private: int m_UnitSize; short m_SegmentSize; FX_BYTE m_IndexSize; FX_BYTE m_IndexDepth; int m_DataSize; void* m_pIndex; void** GetIndex(int seg_index) const; void* IterateIndex(int level, int& start, void** pIndex, FX_BOOL (*callback)(void* param, void* pData), void* param) const; void* IterateSegment(FX_LPCBYTE pSegment, int count, FX_BOOL (*callback)(void* param, void* pData), void* param) const; }; template <class ElementType> class CFX_SegmentedArray : public CFX_BaseSegmentedArray { public: CFX_SegmentedArray(int segment_units, int index_size = 8, IFX_Allocator* pAllocator = NULL) : CFX_BaseSegmentedArray(sizeof(ElementType), segment_units, index_size, pAllocator) {} void Add(ElementType data) { *(ElementType*)CFX_BaseSegmentedArray::Add() = data; } ElementType& operator [] (int index) { return *(ElementType*)CFX_BaseSegmentedArray::GetAt(index); } }; template <class DataType, int FixedSize> class CFX_FixedBufGrow : public CFX_Object { public: CFX_FixedBufGrow(IFX_Allocator* pAllocator = NULL) : m_pAllocator(pAllocator) , m_pData(NULL) {} CFX_FixedBufGrow(int data_size, IFX_Allocator* pAllocator = NULL) : m_pAllocator(pAllocator) , m_pData(NULL) { if (data_size > FixedSize) argument
|
| /external/chromium_org/gpu/command_buffer/service/ |
| H A D | program_manager.cc | 289 uint32 unit_size = GLES2Util::GetGLDataTypeSizeForUniforms( local
291 uint32 size_needed = size * unit_size;
|
| /external/chromium_org/third_party/libvpx/source/libvpx/vp9/encoder/ |
| H A D | vp9_rdopt.c | 194 const BLOCK_SIZE unit_size = txsize_to_bsize[max_tx_size]; local
195 int bw = 1 << (b_width_log2_lookup[bs] - b_width_log2_lookup[unit_size]);
196 int bh = 1 << (b_height_log2_lookup[bs] - b_width_log2_lookup[unit_size]);
198 int lw = b_width_log2_lookup[unit_size] + 2;
199 int lh = b_height_log2_lookup[unit_size] + 2;
209 var = cpi->fn_ptr[unit_size].vf(src, p->src.stride,
|