uint64 100 axscript/DataIO.cpp ConvertU64((uint64&)value);
uint64 204 axscript/DataIO.cpp ConvertU64((uint64&)value);
uint64 64 axscript/Profiler.h void sample(uint64 /*time*/, Stringp /*stackTrace*/) {}
uint64 65 axscript/Profiler.h void allocationSample(uint64 /*time*/, Stringp /*stackTrace*/, uint64 /*allocId*/, Stringp /*type*/) {}
uint64 66 axscript/Profiler.h void deallocationSample(uint64 /*time*/, uint64 /*id*/) {}
uint64 58 axscript/dataio.h inline void FlipU64(uint64& value)
uint64 116 axscript/dataio.h void ConvertU64(uint64& value)
uint64 529 core/ArrayObject.cpp uint64 ArrayObject::size() const
uint64 531 core/ArrayObject.cpp uint64 s = ScriptObject::size();
uint64 132 core/ArrayObject.h virtual uint64 size() const;
uint64 196 core/AvmCore.cpp MMGC_STATIC_ASSERT(sizeof(uint64) == 8);
uint64 4025 core/AvmCore.cpp uint64 i;
uint64 4042 core/AvmCore.cpp uint64 sign_d;
uint64 4077 core/AvmCore.cpp duh.i &= (uint64)MASK;
uint64 4091 core/AvmCore.cpp du.i &= (uint64)MASK;
uint64 60 core/AvmPlusScriptableObject.h virtual uint64 size() const = 0;
uint64 49 core/BigInteger.cpp uint64 mantissa = MathUtils::frexp(value,&e); // value = mantissa*2^e, mantissa and e are integers.
uint64 91 core/BigInteger.cpp const uint64 ONEL = 1UL;
uint64 92 core/BigInteger.cpp uint64 resultMantissa = 0;
uint64 93 core/BigInteger.cpp uint64 w = 0;
uint64 168 core/BigInteger.cpp uint64 uint64_1 = 1;
uint64 210 core/BigInteger.cpp uint64 opResult;
uint64 213 core/BigInteger.cpp uint64 carry = addition; // init cary with first addition
uint64 217 core/BigInteger.cpp opResult = (uint64)wordBuffer[x] * (uint64)factor + carry;
uint64 256 core/BigInteger.cpp uint64 factor = (uint64) smallerNum->wordBuffer[x];
uint64 260 core/BigInteger.cpp uint64 product;
uint64 261 core/BigInteger.cpp uint64 carry = 0;
uint64 311 core/BigInteger.cpp uint64 factor;
uint64 316 core/BigInteger.cpp const uint64 n = (uint64)(residual->wordBuffer[residual->numWords-1]);
uint64 321 core/BigInteger.cpp uint64 bigR = ( ((uint64)residual->wordBuffer[residual->numWords-1]) << 32)
uint64 603 core/BigInteger.cpp uint64 borrow = 0;
uint64 604 core/BigInteger.cpp uint64 x;
uint64 609 core/BigInteger.cpp x = ((uint64)biggerNum->wordBuffer[index]) + smallerNum->wordBuffer[index] + borrow;
uint64 611 core/BigInteger.cpp x = ((uint64)biggerNum->wordBuffer[index]) - smallerNum->wordBuffer[index] - borrow; // note x is unsigned. Ok even if result would be negative however
uint64 620 core/BigInteger.cpp x = ((uint64)biggerNum->wordBuffer[index]) + borrow;
uint64 622 core/BigInteger.cpp x = ((uint64)biggerNum->wordBuffer[index]) - borrow;
uint64 139 core/ClassClosure.cpp uint64 ClassClosure::size() const
uint64 141 core/ClassClosure.cpp uint64 size = ScriptObject::size();
uint64 77 core/ClassClosure.h virtual uint64 size() const;
uint64 214 core/MathUtils.cpp union { double d; uint64 v; }; d = x;
uint64 227 core/MathUtils.cpp uint64 lvalue;
uint64 236 core/MathUtils.cpp union { double d; uint64 v; }; d = x;
uint64 1740 core/MathUtils.cpp static uint64 one = 1; // max we can shift is 64bits
uint64 100 core/MathUtils.h static uint64 frexp(double x, int32_t *eptr);
uint64 289 core/MathUtils.h uint64 mantissa; // on input, value = mantissa*2^e; Only last 53 bits are used
uint64 119 core/Namespace.h uint64 size() const { return sizeof(Namespace) - sizeof(AvmPlusScriptableObject); }
uint64 213 core/Sampler.cpp sampleSize += sizeof(uint64) * 2;
uint64 348 core/Sampler.cpp uint64 Sampler::recordAllocationSample(const void* item, uint64 size, bool callback_ok, bool forceWrite)
uint64 364 core/Sampler.cpp uint64 uid = allocId++;
uint64 377 core/Sampler.cpp uint64 Sampler::recordAllocationInfo(AvmPlusScriptableObject *obj, SamplerObjectType sot)
uint64 387 core/Sampler.cpp uint64 uid = recordAllocationSample(obj, 0);
uint64 435 core/Sampler.cpp uint64 uid = (uint64)uids.get(item);
uint64 131 core/Sampler.h uint64 micros;
uint64 142 core/Sampler.h uint64 size;
uint64 145 core/Sampler.h uint64 id;
uint64 151 core/Sampler.h uint64 alloc_size; // size for new mem sample
uint64 175 core/Sampler.h uint64 recordAllocationInfo(AvmPlusScriptableObject *obj, SamplerObjectType sot);
uint64 176 core/Sampler.h uint64 recordAllocationSample(const void* item, uint64_t size, bool callback_ok = true, bool forceWrite = false);
uint64 833 core/ScriptObject.cpp uint64 ScriptObject::size() const
uint64 835 core/ScriptObject.cpp uint64 size = traits()->getTotalSize();
uint64 231 core/ScriptObject.h virtual uint64 size() const;
uint64 2253 core/StringObject.cpp uint64 String::size() const
uint64 446 core/StringObject.h virtual uint64 size() const;
uint64 267 core/avmplusDebugger.cpp uint64 delta = VMPI_getTime() - astraceStartTime;
uint64 308 core/avmplusDebugger.cpp uint64 delta = VMPI_getTime() - astraceStartTime;
uint64 214 core/avmplusDebugger.h uint64 astraceStartTime;
uint64 110 core/avmplusHashtable.h inline uint64 size() const
uint64 117 extensions/SamplerScript.h void setSize(uint64 s) { size = s; }
uint64 120 extensions/SamplerScript.h uint64 size;
uint64 117 pcre/pcrecpp_unittest.cc uint64 final_size = VirtualProcessSize();
uint64 92 platform/arm/MathUtilsUnix.cpp uint64 MathUtils::frexp(double value, int *eptr)
uint64 99 platform/arm/MathUtilsUnix.cpp return (uint64)(fracMantissa * (double)(1LL << 53));
uint64 46 platform/arm/OSDepUnix.cpp uint64 OSDep::currentTimeMillis()
uint64 50 platform/arm/OSDepUnix.cpp uint64 result = (tv.tv_sec * 1000) + (tv.tv_usec / 1000);
uint64 116 platform/unix/MathUtilsSolaris.cpp uint64 MathUtils::frexp(double value, int *eptr)
uint64 123 platform/unix/MathUtilsSolaris.cpp return (uint64)(fracMantissa * (double)(1LL << 53));
uint64 97 platform/unix/MathUtilsUnix.cpp uint64 MathUtils::frexp(double value, int *eptr)
uint64 104 platform/unix/MathUtilsUnix.cpp return (uint64)(fracMantissa * (double)(1LL << 53));
uint64 317 platform/win32/MathUtilsWin.cpp uint64 MathUtils::frexp(double x, int *eptr)
uint64 323 platform/win32/MathUtilsWin.cpp return (uint64)((fracMantissa) * (double)(1LL << 53));