/external/skia/src/animator/ |
SkScriptRuntime.cpp | 55 SkOperand2 operand[2]; // 1=accumulator and 2=operand local 64 operand[0].fArray = new SkOpArray(SkOperand2::kNoType /*fReturnType*/); 67 index = operand[1].fS32; 68 if (index >= operand[0].fArray->count()) { 72 operand[0] = operand[0].fArray->begin()[index]; 75 *operand[0].fArray->append() = operand[1]; 86 if (callBackFunction->invoke(ref, operand[0].fArray, /* params * [all...] |
SkOpArray.cpp | 9 bool SkOpArray::getIndex(int index, SkOperand2* operand) { 14 *operand = begin()[index];
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SkOpArray.h | 13 bool getIndex(int index, SkOperand2* operand);
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SkTypedArray.h | 28 bool getIndex(int index, SkOperand* operand);
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SkAnimatorScript2.cpp | 50 virtual bool convert(SkOperand2::OpType type, SkOperand2* operand) { 54 SkDisplayArray* boxedValue = new SkDisplayArray(*operand->fArray); 60 boxedValue->value = operand->fS32; 65 boxedValue->value = operand->fScalar; 68 SkDisplayString* boxedValue = new SkDisplayString(*operand->fString); 78 operand->fObject = (void*) displayable; 299 virtual bool convert(SkOperand2::OpType type, SkOperand2* operand) { 301 SkDisplayable* displayable = (SkDisplayable*) operand->fObject; 305 operand->fArray = new SkOpArray(SkAnimatorScript2::ToOpType(boxedValue->values.getType())); 307 operand->fArray->setCount(count) [all...] |
/external/srec/srec/include/ |
log_tabl.h | 40 int log_lookup(log_table_info *logtab, int operand, int shift); 41 int inv_log_lookup(log_table_info *logtab, int operand); 43 int integer_square_root(int operand);
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/external/srec/srec/cfront/ |
log_tabl.c | 84 int log_lookup(log_table_info *logtab, int operand, int shift) 89 if (operand <= 0) 90 operand = 1; 91 while ((operand & logtab->mask)) 93 operand >>= 1; 96 if (operand >= logtab->size) 99 operand = (operand + 1) >> 1; 102 log_report("tab: %d %d -> %d\n", operand, shift, 103 (int)((shift) *(logtab->shift) + logtab->table[operand])); [all...] |
/dalvik/vm/compiler/codegen/arm/ |
ArchUtility.c | 80 int operand; local 90 operand = lir->operands[nc-'0']; 93 if (operand != 0) { 94 sprintf(tbuf, ", %s %d",shiftNames[operand & 0x3], 95 operand >> 2); 101 switch (operand) { 129 tbuf[i] += operand & 1; 130 operand >>= 1; 134 operand = ~expandImmediate(operand); [all...] |
/external/webkit/JavaScriptCore/jit/ |
JITOpcodes.cpp | 391 unsigned dst = currentInstruction[1].u.operand; 392 unsigned src = currentInstruction[2].u.operand; 408 emitLoad(currentInstruction[1].u.operand, regT1, regT0); 415 unsigned target = currentInstruction[1].u.operand; 421 unsigned op1 = currentInstruction[1].u.operand; 422 unsigned op2 = currentInstruction[2].u.operand; 423 unsigned target = currentInstruction[3].u.operand; 449 unsigned op1 = currentInstruction[1].u.operand; 450 unsigned op2 = currentInstruction[2].u.operand; 451 unsigned target = currentInstruction[3].u.operand; [all...] |
JITCall.cpp | 64 int argCount = instruction[3].u.operand; 65 int registerOffset = instruction[4].u.operand; 74 int argCount = instruction[3].u.operand; 75 int registerOffset = instruction[4].u.operand; 76 int proto = instruction[5].u.operand; 77 int thisRegister = instruction[6].u.operand; 95 int dst = instruction[1].u.operand; 96 int callee = instruction[2].u.operand; 97 int argCountRegister = instruction[3].u.operand; 98 int registerOffset = instruction[4].u.operand; [all...] |
JITArithmetic.cpp | 53 unsigned dst = currentInstruction[1].u.operand; 54 unsigned src = currentInstruction[2].u.operand; 79 unsigned dst = currentInstruction[1].u.operand; 91 unsigned op1 = currentInstruction[1].u.operand; 92 unsigned op2 = currentInstruction[2].u.operand; 93 unsigned target = currentInstruction[3].u.operand; 128 unsigned op1 = currentInstruction[1].u.operand; 129 unsigned op2 = currentInstruction[2].u.operand; 130 unsigned target = currentInstruction[3].u.operand; 154 unsigned op1 = currentInstruction[1].u.operand; [all...] |
JITPropertyAccess.cpp | 55 unsigned base = currentInstruction[1].u.operand; 56 unsigned property = currentInstruction[2].u.operand; 57 unsigned value = currentInstruction[3].u.operand; 68 unsigned base = currentInstruction[1].u.operand; 69 unsigned property = currentInstruction[2].u.operand; 70 unsigned function = currentInstruction[3].u.operand; 81 unsigned base = currentInstruction[1].u.operand; 82 unsigned property = currentInstruction[2].u.operand; 83 unsigned function = currentInstruction[3].u.operand; 94 unsigned dst = currentInstruction[1].u.operand; [all...] |
/external/webkit/JavaScriptCore/bytecode/ |
CodeBlock.cpp | 141 int r0 = (++it)->u.operand; 142 int r1 = (++it)->u.operand; 149 int r0 = (++it)->u.operand; 150 int r1 = (++it)->u.operand; 151 int r2 = (++it)->u.operand; 157 int r0 = (++it)->u.operand; 158 int offset = (++it)->u.operand; 164 int r0 = (++it)->u.operand; 165 int r1 = (++it)->u.operand; 166 int id0 = (++it)->u.operand; [all...] |
Instruction.h | 135 Instruction(int operand) 140 u.operand = operand; 150 int operand; member in union:JSC::Instruction::__anon7890
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/external/webkit/JavaScriptCore/interpreter/ |
Interpreter.cpp | 94 int dst = vPC[1].u.operand; 95 int property = vPC[2].u.operand; 124 int dst = vPC[1].u.operand; 125 int property = vPC[2].u.operand; 126 int skip = vPC[3].u.operand + codeBlock->needsFullScopeChain(); 155 int dst = vPC[1].u.operand; 158 int property = vPC[3].u.operand; 160 int offset = vPC[5].u.operand; 195 int dst = vPC[1].u.operand; 196 int property = vPC[2].u.operand; [all...] |
/dalvik/vm/compiler/template/armv5te-vfp/ |
TEMPLATE_SQRT_DOUBLE_VFP.S | 19 fmrrd r0, r1, d0 @ reload orig operand
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/external/chromium/sdch/open-vcdiff/src/ |
rolling_hash.h | 41 // Returns operand % kBase, assuming that kBase is a power of two. 42 static inline uint32_t ModBase(uint32_t operand) { 43 return operand & (kBase - 1); 46 // Given an unsigned integer "operand", returns an unsigned integer "result" 50 // ModBase(operand + result) == 0 51 static inline uint32_t FindModBaseInverse(uint32_t operand) { 52 // The subtraction (0 - operand) produces an unsigned underflow for any 53 // operand except 0. The underflow results in a (very large) unsigned 58 // The C++ mod operation (operand % kBase) may produce different results for 59 // different compilers if operand is negative. That is not a problem i [all...] |
rolling_hash_test.cc | 33 void TestModBase(uint32_t operand) { 34 EXPECT_EQ(operand % kBase, RollingHashUtil::ModBase(operand)); 35 EXPECT_EQ(static_cast<uint32_t>((-static_cast<int32_t>(operand)) % kBase), 36 RollingHashUtil::FindModBaseInverse(operand)); 38 operand + RollingHashUtil::FindModBaseInverse(operand)));
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/dalvik/vm/mterp/armv5te/ |
binopLit16.S | 21 cmp r1, #0 @ is second operand zero?
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binop.S | 25 cmp r1, #0 @ is second operand zero?
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binop2addr.S | 23 cmp r1, #0 @ is second operand zero?
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binopLit8.S | 22 @cmp r1, #0 @ is second operand zero?
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/dalvik/vm/mterp/armv6t2/ |
binopLit16.S | 20 cmp r1, #0 @ is second operand zero?
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/external/libpcap/ |
bpf_image.c | 48 char operand[64]; local 280 (void)snprintf(operand, sizeof operand, fmt, v); 286 n, op, operand, n + 1 + p->jt, n + 1 + p->jf);
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/external/webkit/JavaScriptCore/bytecompiler/ |
Label.h | 55 m_codeBlock->instructions()[m_unresolvedJumps[i].second].u.operand = m_location - m_unresolvedJumps[i].first;
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