c1               4655 core/AvmCore.cpp 				wchar c1 = uri->charAt(k);
c1               4657 core/AvmCore.cpp 				if (c1 == c2)
c1               4659 core/AvmCore.cpp 				r = c1 - c2;
c1               1651 core/MathUtils.cpp 		iResult = (iSeed*(iSeed*iSeed*c3 + c2) + c1) & kRandomPureMax;
c1               1788 core/XMLObject.cpp 			E4XNode *c1 = AvmCore::atomToXML(child1);
c1               1790 core/XMLObject.cpp 			if (!c1 && AvmCore::isXMLList(child1))
c1               1794 core/XMLObject.cpp 					c1 = xl->_getAt(0)->m_node;
c1               1796 core/XMLObject.cpp 			if (c1)
c1               1802 core/XMLObject.cpp 					if (child == c1)
c1               1848 core/XMLObject.cpp 			E4XNode *c1 = AvmCore::atomToXML(child1);
c1               1850 core/XMLObject.cpp 			if (!c1 && AvmCore::isXMLList(child1))
c1               1854 core/XMLObject.cpp 					c1 = xl->_getAt(0)->m_node;
c1               1856 core/XMLObject.cpp 			if (c1)
c1               1862 core/XMLObject.cpp 					if (child == c1)
c1                565 nanojit/LIR.cpp             int32_t c1 = oprnd1->imm32();
c1                573 nanojit/LIR.cpp                 q = c1 | uint64_t(c2)<<32;
c1                576 nanojit/LIR.cpp                 return insImm(c1 == c2);
c1                578 nanojit/LIR.cpp                 return insImm((c2 != 0) && ((c1 + c2) <= c1));
c1                580 nanojit/LIR.cpp                 return insImm(c1 < c2);
c1                582 nanojit/LIR.cpp                 return insImm(c1 > c2);
c1                584 nanojit/LIR.cpp                 return insImm(c1 <= c2);
c1                586 nanojit/LIR.cpp                 return insImm(c1 >= c2);
c1                588 nanojit/LIR.cpp                 return insImm(uint32_t(c1) < uint32_t(c2));
c1                590 nanojit/LIR.cpp                 return insImm(uint32_t(c1) > uint32_t(c2));
c1                592 nanojit/LIR.cpp                 return insImm(uint32_t(c1) <= uint32_t(c2));
c1                594 nanojit/LIR.cpp                 return insImm(uint32_t(c1) >= uint32_t(c2));
c1                596 nanojit/LIR.cpp                 return insImm(int32_t(c1) >> int32_t(c2));
c1                598 nanojit/LIR.cpp                 return insImm(int32_t(c1) << int32_t(c2));
c1                600 nanojit/LIR.cpp                 return insImm(uint32_t(c1) >> int32_t(c2));
c1                602 nanojit/LIR.cpp                 return insImm(uint32_t(c1) | int32_t(c2));
c1                604 nanojit/LIR.cpp                 return insImm(uint32_t(c1) & int32_t(c2));
c1                606 nanojit/LIR.cpp                 return insImm(uint32_t(c1) ^ int32_t(c2));
c1                608 nanojit/LIR.cpp                 d = double(c1) + double(c2);
c1                615 nanojit/LIR.cpp                 d = double(c1) - double(c2);
c1                618 nanojit/LIR.cpp                 d = double(c1) * double(c2);
c1                632 nanojit/LIR.cpp             double c1 = oprnd1->imm64f();
c1                636 nanojit/LIR.cpp                 return insImm(c1 == c2);
c1                638 nanojit/LIR.cpp                 return insImm(c1 < c2);
c1                640 nanojit/LIR.cpp                 return insImm(c1 > c2);
c1                642 nanojit/LIR.cpp                 return insImm(c1 <= c2);
c1                644 nanojit/LIR.cpp                 return insImm(c1 >= c2);
c1                646 nanojit/LIR.cpp                 return insImmf(c1 + c2);
c1                648 nanojit/LIR.cpp                 return insImmf(c1 - c2);
c1                650 nanojit/LIR.cpp                 return insImmf(c1 * c2);
c1                652 nanojit/LIR.cpp                 return insImmf(c1 / c2);