uint64_t 85 apps/simd_op_check/driver.cpp make_buffer<uint64_t>(W, H) uint64_t 21 python_bindings/tests/the_sort_function.c uint64_t dev; uint64_t 503 src/AddImageChecks.cpp Expr u64t_host_ptr = reinterpret<uint64_t>(host_ptr); uint64_t 221 src/AssociativeOpsTable.cpp {cast<uint8_t>(min(cast<uint64_t>(x0 + y0), k0_uint64)), zero, true}, uint64_t 239 src/AssociativeOpsTable.cpp {cast<uint16_t>(min(cast<uint64_t>(x0 + y0), k0_uint64)), zero, true}, uint64_t 255 src/AssociativeOpsTable.cpp {cast<uint32_t>(min(cast<uint64_t>(x0 + y0), k0_uint64)), zero, true}, uint64_t 568 src/BoundsInference.cpp cast<uint64_t>(Call::make(Int(32), Call::size_of_halide_buffer_t, {}, Call::Intrinsic)); uint64_t 131 src/CodeGen_Hexagon.cpp Expr dummy_obj = reinterpret(Handle(), cast<uint64_t>(1)); uint64_t 1223 src/CodeGen_LLVM.cpp const uint64_t *const_uint_divisor = as_const_uint(op->b); uint64_t 1315 src/CodeGen_LLVM.cpp const uint64_t *const_uint_divisor = as_const_uint(op->b); uint64_t 42 src/CodeGen_Posix.cpp Expr low_mask = make_const(UInt(64), (uint64_t)(0xffffffff)); uint64_t 156 src/Elf.cpp return (uint64_t)r_info >> 32; uint64_t 164 src/Elf.cpp return (uint64_t)type | ((uint64_t)sym << 32); uint64_t 380 src/Elf.cpp for (uint64_t j = 1; j < sh->sh_size / sizeof(Sym<T>); ++j) { uint64_t 410 src/Elf.cpp for (uint64_t i = 0; i < sh->sh_size / sh->sh_entsize; i++) { uint64_t 480 src/Elf.cpp uint64_t alignment = std::max(merged->get_alignment(), s->get_alignment()); uint64_t 485 src/Elf.cpp uint64_t offset = contents.size(); uint64_t 562 src/Elf.cpp auto write_section = [&](const Section &s, uint64_t entsize = 0) { uint64_t 563 src/Elf.cpp uint64_t alignment = s.get_alignment(); uint64_t 566 src/Elf.cpp uint64_t offset = output.size(); uint64_t 595 src/Elf.cpp auto get_section_offset = [&](const Section &s) -> uint64_t { uint64_t 601 src/Elf.cpp uint64_t max_got_size = obj.symbols_size() * 2 * sizeof(addr_t); uint64_t 731 src/Elf.cpp uint64_t local_count = 0; uint64_t 737 src/Elf.cpp uint64_t value = s->get_offset(); uint64_t 803 src/Elf.cpp uint64_t fixup_offset = get_section_offset(s) + r.get_offset(); uint64_t 805 src/Elf.cpp uint64_t sym_offset = 0; uint64_t 833 src/Elf.cpp uint64_t alignment = 8; uint64_t 835 src/Elf.cpp uint64_t offset = output.size(); uint64_t 837 src/Elf.cpp uint64_t i_offset = get_section_offset(s) + r.get_offset(); uint64_t 841 src/Elf.cpp uint64_t size = output.size() - offset; uint64_t 73 src/Elf.h uint64_t offset = 0; uint64_t 103 src/Elf.h Symbol &define(const Section *section, uint64_t offset, uint32_t size) { uint64_t 111 src/Elf.h uint64_t get_offset() const { return offset; } uint64_t 135 src/Elf.h uint64_t offset = 0; uint64_t 141 src/Elf.h Relocation(uint32_t type, uint64_t offset, int64_t addend, const Symbol *symbol) uint64_t 157 src/Elf.h Relocation &set_offset(uint64_t offset) { uint64_t 161 src/Elf.h uint64_t get_offset() const { return offset; } uint64_t 221 src/Elf.h uint64_t size = 0; uint64_t 222 src/Elf.h uint64_t alignment = 1; uint64_t 259 src/Elf.h Section &set_size(uint64_t size) { uint64_t 263 src/Elf.h uint64_t get_size() const { return std::max((uint64_t) size, (uint64_t) contents.size()); } uint64_t 266 src/Elf.h Section &set_alignment(uint64_t alignment) { uint64_t 270 src/Elf.h uint64_t get_alignment() const { return alignment; } uint64_t 338 src/Elf.h virtual uint64_t get_got_entry(Section &got, const Symbol &sym) = 0; uint64_t 352 src/Elf.h virtual Relocation relocate(uint64_t fixup_offset, char *fixup_addr, uint64_t type, uint64_t 353 src/Elf.h const Symbol *sym, uint64_t sym_offset, int64_t addend, uint64_t 388 src/Elf.h uint64_t entry = 0; uint64_t 400 src/Elf.h uint64_t get_entry() const { return entry; } uint64_t 415 src/Elf.h Object &set_entry(uint64_t entry) { uint64_t 195 src/Expr.h uint64_t value; uint64_t 197 src/Expr.h static const UIntImm *make(Type t, uint64_t value) { uint64_t 281 src/Expr.h EXPORT explicit Expr(uint64_t x) : IRHandle(Internal::UIntImm::make(UInt(64), x)) {} uint64_t 30 src/Float16.cpp uint64_t bits = v.bitcastToAPInt().getZExtValue(); uint64_t 36 src/Float16.cpp llvm::APInt bitRepr(16, (uint64_t)v.to_bits(), /*isSigned=*/false); uint64_t 1773 src/Generator.cpp GeneratorParam<uint64_t> gp2{"gp2", 2}; uint64_t 1777 src/Generator.cpp ScheduleParam<uint64_t> sp2{"sp2", 102}; uint64_t 1785 src/Generator.cpp internal_assert(gp2 == (uint64_t) 2); // unchanged uint64_t 1834 src/Generator.cpp GeneratorParam<uint64_t> gp2{"gp2", 2}; uint64_t 1838 src/Generator.cpp ScheduleParam<uint64_t> sp2{"sp2", 102}; uint64_t 1846 src/Generator.cpp internal_assert(gp2 == (uint64_t) 2); // unchanged uint64_t 1884 src/Generator.cpp GeneratorParam<uint64_t> gp2{"gp2", 2}; uint64_t 1888 src/Generator.cpp ScheduleParam<uint64_t> sp2{"sp2", 102}; uint64_t 1895 src/Generator.cpp internal_assert(gp2 == (uint64_t) 2); // unchanged uint64_t 1939 src/Generator.cpp Input<uint64_t[4]> input_scalar_array{ "input_scalar_array" }; uint64_t 1972 src/Generator.cpp const std::vector<uint64_t> a = { 1, 2, 3, 4 }; uint64_t 351 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(uint64_t) uint64_t 435 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(uint64_t) uint64_t 493 src/HexagonOffload.cpp uint64_t get_got_entry(Section &got, const Symbol &sym) override { uint64_t 502 src/HexagonOffload.cpp uint64_t got_offset = got.contents_size(); uint64_t 532 src/HexagonOffload.cpp uint64_t got_offset = got.contents_size(); uint64_t 553 src/HexagonOffload.cpp Relocation relocate(uint64_t fixup_offset, char *fixup_addr, uint64_t type, uint64_t 554 src/HexagonOffload.cpp const Elf::Symbol *sym, uint64_t sym_offset, int64_t addend, uint64_t 705 src/HexagonOffload.cpp Expr host_ptr = reinterpret<uint64_t>(Variable::make(Handle(), i.first)); uint64_t 748 src/HexagonOffload.cpp arg_sizes.push_back(Expr((uint64_t)(pseudo_buffer.type().bytes()))); uint64_t 761 src/HexagonOffload.cpp arg_sizes.push_back(Expr((uint64_t) i.second.bytes())); uint64_t 767 src/HexagonOffload.cpp arg_sizes.push_back(Expr((uint64_t) 0)); uint64_t 817 src/HexagonOffload.cpp { module_state_ptr(), code_ptr, cast<uint64_t>(code_size) }); uint64_t 34 src/IREquality.h uint64_t pa = (uint64_t)(a.get()); uint64_t 35 src/IREquality.h uint64_t pb = (uint64_t)(b.get()); uint64_t 36 src/IREquality.h uint64_t mix = (pa + pb) + (pa ^ pb); uint64_t 96 src/IRMatch.cpp reinterpret_bits<uint64_t>(e->value) != uint64_t 97 src/IRMatch.cpp reinterpret_bits<uint64_t>(op->value) || uint64_t 74 src/IROperator.cpp return (value >= 0) && (i->value == (uint64_t)value); uint64_t 104 src/IROperator.cpp const uint64_t *as_const_uint(const Expr &e) { uint64_t 137 src/IROperator.cpp uint64_t val = 0; uint64_t 141 src/IROperator.cpp val = (uint64_t)(*i); uint64_t 142 src/IROperator.cpp } else if (const uint64_t *u = as_const_uint(e)) { uint64_t 261 src/IROperator.cpp return UIntImm::make(t, (uint64_t)val); uint64_t 275 src/IROperator.cpp Expr make_const(Type t, uint64_t val) { uint64_t 33 src/IROperator.h EXPORT const uint64_t *as_const_uint(const Expr &e); uint64_t 82 src/IROperator.h EXPORT Expr make_const(Type t, uint64_t val); uint64_t 85 src/IROperator.h inline Expr make_const(Type t, uint32_t val) {return make_const(t, (uint64_t)val);} uint64_t 87 src/IROperator.h inline Expr make_const(Type t, uint16_t val) {return make_const(t, (uint64_t)val);} uint64_t 89 src/IROperator.h inline Expr make_const(Type t, uint8_t val) {return make_const(t, (uint64_t)val);} uint64_t 90 src/IROperator.h inline Expr make_const(Type t, bool val) {return make_const(t, (uint64_t)val);} uint64_t 218 src/IROperator.h if (const uint64_t *u = as_const_uint(a)) { uint64_t 26 src/Interval.cpp const uint64_t *ua = as_const_uint(a); uint64_t 27 src/Interval.cpp const uint64_t *ub = as_const_uint(b); uint64_t 67 src/Interval.cpp const uint64_t *ua = as_const_uint(a); uint64_t 68 src/Interval.cpp const uint64_t *ub = as_const_uint(b); uint64_t 45 src/Introspection.cpp uint64_t name, form; uint64_t 47 src/Introspection.cpp FieldFormat(uint64_t n, uint64_t f) : name(n), form(f) {} uint64_t 51 src/Introspection.cpp uint64_t code, tag; uint64_t 59 src/Introspection.cpp uint64_t pc_begin, pc_end; uint64_t 67 src/Introspection.cpp uint64_t type_def_loc; uint64_t 68 src/Introspection.cpp uint64_t def_loc, spec_loc; uint64_t 69 src/Introspection.cpp uint64_t addr; uint64_t 83 src/Introspection.cpp uint64_t addr; uint64_t 86 src/Introspection.cpp uint64_t addr; uint64_t 95 src/Introspection.cpp map<uint64_t, HeapObject> heap_objects; uint64_t 101 src/Introspection.cpp uint64_t type_def_loc; uint64_t 102 src/Introspection.cpp uint64_t def_loc, origin_loc; uint64_t 118 src/Introspection.cpp uint64_t pc_begin, pc_end; uint64_t 120 src/Introspection.cpp uint64_t def_loc, spec_loc; uint64_t 136 src/Introspection.cpp uint64_t pc; uint64_t 147 src/Introspection.cpp uint64_t size; uint64_t 148 src/Introspection.cpp uint64_t def_loc; uint64_t 197 src/Introspection.cpp uint64_t pc_real = (uint64_t)fn; uint64_t 203 src/Introspection.cpp uint64_t pc_debug = functions[i].pc_begin; uint64_t 287 src/Introspection.cpp uint64_t address = (uint64_t)(global_pointer); uint64_t 292 src/Introspection.cpp uint64_t addr_mid = global_variables[mid].addr; uint64_t 311 src/Introspection.cpp uint64_t end_ptr = global_variables[idx].addr; uint64_t 316 src/Introspection.cpp uint64_t size = t->size; uint64_t 340 src/Introspection.cpp uint64_t address = (uint64_t)global_pointer; uint64_t 410 src/Introspection.cpp heap_object.addr = (uint64_t)obj; uint64_t 479 src/Introspection.cpp heap_objects.erase((uint64_t)obj); uint64_t 491 src/Introspection.cpp uint64_t addr = (uint64_t)ptr; uint64_t 492 src/Introspection.cpp std::map<uint64_t, HeapObject>::iterator it = heap_objects.upper_bound(addr); uint64_t 504 src/Introspection.cpp uint64_t object_start = it->first; uint64_t 505 src/Introspection.cpp uint64_t object_end = object_start + obj.type->size; uint64_t 535 src/Introspection.cpp uint64_t array_start_addr = obj.members[i].addr; uint64_t 536 src/Introspection.cpp uint64_t array_end_addr = array_start_addr + t->size * elem_type->size; uint64_t 542 src/Introspection.cpp uint64_t containing_elem = (addr - array_start_addr) / elem_type->size; uint64_t 552 src/Introspection.cpp uint64_t struct_start_addr = obj.members[i].addr; uint64_t 553 src/Introspection.cpp uint64_t struct_end_addr = struct_start_addr + t->size; uint64_t 570 src/Introspection.cpp uint64_t marker_addr = (uint64_t)▮ uint64_t 571 src/Introspection.cpp uint64_t top_of_stack; uint64_t 573 src/Introspection.cpp top_of_stack = (uint64_t)(-1); uint64_t 581 src/Introspection.cpp if ((uint64_t)stack_pointer > top_of_stack || uint64_t 582 src/Introspection.cpp (uint64_t)stack_pointer < marker_addr) { uint64_t 626 src/Introspection.cpp uint64_t pc = (uint64_t)(next_fp->return_address) - 5; // -5 for the callq instruction uint64_t 729 src/Introspection.cpp uint64_t address = (uint64_t)trace[frame]; uint64_t 771 src/Introspection.cpp uint64_t pc_mid = source_lines[mid].pc; uint64_t 978 src/Introspection.cpp uint64_t name = e.getULEB128(&off); uint64_t 979 src/Introspection.cpp uint64_t form = e.getULEB128(&off); uint64_t 1004 src/Introspection.cpp uint64_t start_of_unit_header = off; uint64_t 1008 src/Introspection.cpp uint64_t unit_length = e.getU32(&off); uint64_t 1022 src/Introspection.cpp uint64_t start_of_unit = off; uint64_t 1026 src/Introspection.cpp uint64_t debug_abbrev_offset = 0; uint64_t 1043 src/Introspection.cpp uint64_t compile_unit_base_pc = 0; uint64_t 1078 src/Introspection.cpp uint64_t location = off; uint64_t 1081 src/Introspection.cpp uint64_t abbrev_code = e.getULEB128(&off); uint64_t 1146 src/Introspection.cpp uint64_t val = 0; uint64_t 1230 src/Introspection.cpp val = (uint64_t)e.getSLEB128(&off); uint64_t 1235 src/Introspection.cpp uint64_t offset; uint64_t 1458 src/Introspection.cpp gvar.addr = (uint64_t)(addr); uint64_t 1525 src/Introspection.cpp LiveRange r = {(uint64_t)ptr[0], (uint64_t)ptr[1]}; uint64_t 1595 src/Introspection.cpp std::map<uint64_t, FunctionInfo *> func_map; uint64_t 1612 src/Introspection.cpp std::map<uint64_t, LocalVariable *> var_map; uint64_t 1622 src/Introspection.cpp uint64_t loc = v.origin_loc; uint64_t 1639 src/Introspection.cpp std::map<uint64_t, GlobalVariable *> var_map; uint64_t 1667 src/Introspection.cpp std::map<uint64_t, TypeInfo *> type_map; uint64_t 1915 src/Introspection.cpp uint64_t dir = e.getULEB128(&off); uint64_t 1916 src/Introspection.cpp uint64_t mod_time = e.getULEB128(&off); uint64_t 1917 src/Introspection.cpp uint64_t length = e.getULEB128(&off); uint64_t 1932 src/Introspection.cpp uint64_t address; uint64_t 1971 src/Introspection.cpp uint64_t len = e.getULEB128(&off); uint64_t 1990 src/Introspection.cpp uint64_t dir_index = e.getULEB128(&off); uint64_t 1991 src/Introspection.cpp uint64_t mod_time = e.getULEB128(&off); uint64_t 1992 src/Introspection.cpp uint64_t length = e.getULEB128(&off); uint64_t 2021 src/Introspection.cpp uint64_t advance = e.getULEB128(&off); uint64_t 2055 src/Introspection.cpp uint64_t advance = adjust_opcode / line_range; uint64_t 2092 src/Introspection.cpp uint64_t advance_op = adjust_opcode / line_range; uint64_t 2093 src/Introspection.cpp uint64_t advance_line = line_base + adjust_opcode % line_range; uint64_t 2114 src/Introspection.cpp uint64_t address = (uint64_t)addr; uint64_t 2120 src/Introspection.cpp uint64_t pc_mid_begin = functions[mid].pc_begin; uint64_t 2121 src/Introspection.cpp uint64_t pc_mid_end = functions[mid].pc_end; uint64_t 2145 src/Introspection.cpp result |= (uint64_t)(byte & 0x7f) << shift; uint64_t 2162 src/Introspection.cpp uint64_t result = 0; uint64_t 2169 src/Introspection.cpp result |= (uint64_t)(byte & 0x7f) << shift; uint64_t 180 src/JITModule.cpp virtual uint64_t getSymbolAddress(const std::string &name) override { uint64_t 188 src/JITModule.cpp return (uint64_t)iter->second.address; uint64_t 753 src/JITModule.cpp uint64_t arg_addr = uint64_t 759 src/JITModule.cpp uint64_t fun_addr = runtime.jit_module->execution_engine->getGlobalValueAddress("halide_jit_module_adjust_ref_count"); uint64_t 108 src/Lerp.cpp uint64_t scaling_factor = 1; uint64_t 96 src/Module.cpp uint64_t target_feature_mask(const Target &target) { uint64_t 97 src/Module.cpp static_assert(sizeof(uint64_t)*8 >= Target::FeatureEnd, "Features will not fit in uint64_t"); uint64_t 98 src/Module.cpp uint64_t feature_mask = 0; uint64_t 101 src/Module.cpp feature_mask |= ((uint64_t) 1) << i; uint64_t 448 src/Module.cpp uint64_t runtime_features_mask = (uint64_t)-1LL; uint64_t 506 src/Module.cpp const uint64_t cur_target_mask = target_feature_mask(target); uint64_t 525 src/Module.cpp runtime_features_mask &= ~(((uint64_t)(1)) << Target::NoRuntime); uint64_t 528 src/Module.cpp if (runtime_features_mask & (((uint64_t) 1) << i)) { uint64_t 17 src/Parameter.cpp uint64_t data; uint64_t 171 src/Parameter.cpp case 64: return Expr(get_scalar<uint64_t>()); uint64_t 176 src/Parameter.cpp case 64: return Expr(get_scalar<uint64_t>()); uint64_t 35 src/Profiling.cpp map<int, uint64_t> func_stack_current; // map from func id -> current stack allocation uint64_t 36 src/Profiling.cpp map<int, uint64_t> func_stack_peak; // map from func id -> peak stack allocation uint64_t 95 src/Profiling.cpp Expr size = cast<uint64_t>(extents[0]); uint64_t 123 src/Profiling.cpp const uint64_t *int_size = as_const_uint(size); uint64_t 174 src/Profiling.cpp const uint64_t *int_size = as_const_uint(alloc.size); uint64_t 57 src/Random.cpp if (const uint64_t *i = as_const_uint(x)) { uint64_t 76 src/Random.cpp const uint64_t *ir = as_const_uint(result); uint64_t 77 src/Random.cpp const uint64_t *ie = as_const_uint(e[i]); uint64_t 458 src/ScheduleFunctions.cpp Expr sizeof_buffer_t = cast<uint64_t>(Call::make(Int(32), Call::size_of_halide_buffer_t, {}, Call::Intrinsic)); uint64_t 463 src/ScheduleFunctions.cpp Expr shape_size = Expr((uint64_t)(sizeof(halide_dimension_t) * dimensions)); uint64_t 62 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(uint64_t) uint64_t 213 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(uint64_t) uint64_t 288 src/Simplify.cpp bool const_uint(const Expr &e, uint64_t *u) { uint64_t 291 src/Simplify.cpp } else if (const uint64_t *p = as_const_uint(e)) { uint64_t 478 src/Simplify.cpp uint64_t u = 0; uint64_t 488 src/Simplify.cpp expr = UIntImm::make(op->type, (uint64_t)f); uint64_t 500 src/Simplify.cpp expr = UIntImm::make(op->type, (uint64_t)i); uint64_t 585 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 963 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 1459 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 1557 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 1980 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 2126 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 2516 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 3001 src/Simplify.cpp uint64_t ua = 0, ub = 0; uint64_t 4011 src/Simplify.cpp if (const_int(b, &ib) || const_uint(b, (uint64_t *)(&ib))) { uint64_t 4050 src/Simplify.cpp uint64_t ub = 0; uint64_t 287 src/Target.h return (((uint64_t)1) << 63) - 1; uint64_t 289 src/Target.h return (((uint64_t)1) << 31) - 1; uint64_t 10 src/Type.cpp uint64_t max_uint(int bits) { uint64_t 11 src/Type.cpp uint64_t max_val = 0xffffffffffffffffULL; uint64_t 75 src/Type.cpp return x > 0 && is_max((uint64_t)x); uint64_t 78 src/Type.cpp bool Type::is_max(uint64_t x) const { uint64_t 80 src/Type.cpp return x == (uint64_t)max_int(bits()); uint64_t 98 src/Type.cpp bool Type::is_min(uint64_t x) const { uint64_t 122 src/Type.cpp return x >= 0 && (uint64_t)x <= max_uint(bits()); uint64_t 139 src/Type.cpp bool Type::can_represent(uint64_t x) const { uint64_t 141 src/Type.cpp return x <= (uint64_t)(max_int(bits())); uint64_t 147 src/Type.cpp return (uint64_t)(float)(float16_t)(float)x == x; uint64_t 149 src/Type.cpp return (uint64_t)(float)x == x; uint64_t 151 src/Type.cpp return (uint64_t)(double)x == x; uint64_t 165 src/Type.cpp uint64_t u = x; uint64_t 145 src/Type.h HALIDE_DECLARE_EXTERN_SIMPLE_TYPE(uint64_t); uint64_t 407 src/Type.h EXPORT bool can_represent(uint64_t x) const; uint64_t 413 src/Type.h EXPORT bool is_max(uint64_t) const; uint64_t 415 src/Type.h EXPORT bool is_min(uint64_t) const; uint64_t 83 src/UnpackBuffers.cpp Expr dev_val = Call::make(type_of<uint64_t>(), Call::buffer_get_device, args, Call::Extern); uint64_t 139 src/UnpackBuffers.cpp Expr cond = reinterpret<uint64_t>(buf) != 0; uint64_t 281 src/Util.cpp return {static_cast<uint64_t>(a.st_size), uint64_t 392 src/Util.cpp int64_t ab = (int64_t)((uint64_t)a)*((uint64_t)b); uint64_t 172 src/Util.h uint64_t file_size; uint64_t 130 src/runtime/HalideBuffer.h using storage_T = typename std::conditional<std::is_pointer<T>::value, uint64_t, not_void_T>::type; uint64_t 1009 src/runtime/HalideBuffer.h using MemType = uint64_t; uint64_t 96 src/runtime/HalideRuntime.h uint64_t _private[8]; uint64_t 641 src/runtime/HalideRuntime.h extern void halide_msan_annotate_memory_is_initialized(void *user_context, const void *ptr, uint64_t len); uint64_t 815 src/runtime/HalideRuntime.h uint64_t allocation_size, uint64_t max_size); uint64_t 828 src/runtime/HalideRuntime.h uint64_t val, uint64_t min_val); uint64_t 834 src/runtime/HalideRuntime.h uint64_t val, uint64_t max_val); uint64_t 939 src/runtime/HalideRuntime.h extern int halide_can_use_target_features(uint64_t features); uint64_t 940 src/runtime/HalideRuntime.h typedef int (*halide_can_use_target_features_t)(uint64_t); uint64_t 958 src/runtime/HalideRuntime.h extern int halide_default_can_use_target_features(uint64_t features); uint64_t 999 src/runtime/HalideRuntime.h uint64_t device; uint64_t 1010 src/runtime/HalideRuntime.h uint64_t flags; uint64_t 1129 src/runtime/HalideRuntime.h uint64_t dev; uint64_t 1178 src/runtime/HalideRuntime.h uint64_t u64; uint64_t 1247 src/runtime/HalideRuntime.h uint64_t time; uint64_t 1250 src/runtime/HalideRuntime.h uint64_t memory_current; uint64_t 1253 src/runtime/HalideRuntime.h uint64_t memory_peak; uint64_t 1256 src/runtime/HalideRuntime.h uint64_t memory_total; uint64_t 1259 src/runtime/HalideRuntime.h uint64_t stack_peak; uint64_t 1262 src/runtime/HalideRuntime.h uint64_t active_threads_numerator, active_threads_denominator; uint64_t 1275 src/runtime/HalideRuntime.h uint64_t time; uint64_t 1278 src/runtime/HalideRuntime.h uint64_t memory_current; uint64_t 1281 src/runtime/HalideRuntime.h uint64_t memory_peak; uint64_t 1284 src/runtime/HalideRuntime.h uint64_t memory_total; uint64_t 1288 src/runtime/HalideRuntime.h uint64_t active_threads_numerator, active_threads_denominator; uint64_t 1447 src/runtime/HalideRuntime.h HALIDE_ALWAYS_INLINE halide_type_t halide_type_of<uint64_t>() { uint64_t 30 src/runtime/HalideRuntimeHexagonHost.h void *ptr, uint64_t size); uint64_t 45 src/runtime/HalideRuntimeHexagonHost.h extern uint64_t halide_hexagon_get_device_size(void *user_context, struct halide_buffer_t *buf); uint64_t 117 src/runtime/HalideRuntimeHexagonHost.h const uint8_t *code, uint64_t code_size); uint64_t 122 src/runtime/HalideRuntimeHexagonHost.h uint64_t arg_sizes[], uint64_t 7 src/runtime/aarch64_cpu_features.cpp const uint64_t known = 0; uint64_t 8 src/runtime/aarch64_cpu_features.cpp const uint64_t available = 0; uint64_t 6 src/runtime/arm_cpu_features.cpp uint64_t known = 1ULL << halide_target_feature_no_neon; uint64_t 9 src/runtime/arm_cpu_features.cpp uint64_t available = 1ULL << halide_target_feature_no_neon; uint64_t 23 src/runtime/buffer_t.cpp uint64_t _halide_buffer_get_device(const halide_buffer_t *buf) { uint64_t 103 src/runtime/buffer_t.cpp uint64_t device, halide_device_interface_t *device_interface, uint64_t 107 src/runtime/buffer_t.cpp uint64_t flags) { uint64_t 201 src/runtime/cache.cpp const uint64_t kDefaultCacheSize = 1 << 20; uint64_t 476 src/runtime/cache.cpp uint64_t added_size = 0; uint64_t 15 src/runtime/can_use_target.cpp WEAK int halide_can_use_target_features(uint64_t features) { uint64_t 19 src/runtime/can_use_target.cpp WEAK int halide_default_can_use_target_features(uint64_t features) { uint64_t 28 src/runtime/can_use_target.cpp uint64_t m; uint64_t 378 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 421 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 447 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 465 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 553 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 557 src/runtime/cuda.cpp debug(user_context) << " cuMemAlloc " << (uint64_t)size << " -> "; uint64_t 573 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 581 src/runtime/cuda.cpp WEAK int do_multidimensional_copy(void *user_context, const device_copy &c, uint64_t dst, uint64_t src, int d, bool d_to_h) { uint64_t 624 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 638 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 656 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 670 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 688 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 699 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 736 src/runtime/cuda.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 764 src/runtime/cuda.cpp uint64_t *dev_handles = (uint64_t *)malloc(num_args * sizeof(uint64_t)); uint64_t 767 src/runtime/cuda.cpp halide_assert(user_context, arg_sizes[i] == sizeof(uint64_t)); uint64_t 768 src/runtime/cuda.cpp dev_handles[i] = (*(uint64_t *)args[i]); uint64_t 799 src/runtime/cuda.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 837 src/runtime/cuda.cpp uint64_t dev_ptr = buf->device; uint64_t 33 src/runtime/device_buffer_utils.h uint64_t src, dst; uint64_t 35 src/runtime/device_buffer_utils.h uint64_t extent[MAX_COPY_DIMS]; uint64_t 37 src/runtime/device_buffer_utils.h uint64_t stride_bytes[MAX_COPY_DIMS]; uint64_t 39 src/runtime/device_buffer_utils.h uint64_t chunk_size; uint64_t 52 src/runtime/device_buffer_utils.h for (uint64_t i = 0; i < copy.extent[d]; i++) { uint64_t 71 src/runtime/device_buffer_utils.h c.src = (uint64_t)buf->host; uint64_t 98 src/runtime/device_buffer_utils.h uint64_t stride_bytes = buf->dim[i].stride * buf->type.bytes(); uint64_t 141 src/runtime/device_buffer_utils.h uint64_t tmp = c.src; uint64_t 17 src/runtime/device_interface.cpp uint64_t device_handle; uint64_t 59 src/runtime/errors.cpp WEAK int halide_error_buffer_allocation_too_large(void *user_context, const char *buffer_name, uint64_t allocation_size, uint64_t max_size) { uint64_t 115 src/runtime/errors.cpp uint64_t val, uint64_t min_val) { uint64_t 142 src/runtime/errors.cpp uint64_t val, uint64_t max_val) { uint64_t 19 src/runtime/gcd_thread_pool.cpp typedef uint64_t dispatch_time_t; uint64_t 183 src/runtime/hexagon_host.cpp const uint8_t *code, uint64_t code_size) { uint64_t 194 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 235 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 248 src/runtime/hexagon_host.cpp uint64_t arg_sizes[], void *args[], int arg_flags[], int flag_mask, int flag_value, uint64_t 257 src/runtime/hexagon_host.cpp halide_assert(user_context, arg_sizes[i] == sizeof(uint64_t)); uint64_t 258 src/runtime/hexagon_host.cpp uint64_t device_handle = *((uint64_t *)args[i]); uint64_t 278 src/runtime/hexagon_host.cpp uint64_t arg_sizes[], uint64_t 333 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 360 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 426 src/runtime/hexagon_host.cpp debug(user_context) << " allocating buffer of " << (uint64_t)size << " bytes\n"; uint64_t 429 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 434 src/runtime/hexagon_host.cpp debug(user_context) << " host_malloc len=" << (uint64_t)size << " -> "; uint64_t 442 src/runtime/hexagon_host.cpp debug(user_context) << " halide_malloc size=" << (uint64_t)size << " -> "; uint64_t 469 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 482 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 485 src/runtime/hexagon_host.cpp uint64_t size = halide_hexagon_get_device_size(user_context, buf); uint64_t 502 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 522 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 533 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 546 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 557 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 572 src/runtime/hexagon_host.cpp void *ion_buf, uint64_t size) { uint64_t 586 src/runtime/hexagon_host.cpp buf->device = reinterpret<uint64_t>(handle); uint64_t 614 src/runtime/hexagon_host.cpp WEAK uint64_t halide_hexagon_get_device_size(void *user_context, struct halide_buffer_t *buf) { uint64_t 651 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 663 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 682 src/runtime/hexagon_host.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 694 src/runtime/hexagon_host.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 164 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint64_t buf; uint64_t 177 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c pn = malloc(size + sizeof(_heap) - sizeof(uint64_t)); uint64_t 336 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c const uint64_t* value64s; uint64_t 616 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_unpack(_al, (_praIn + 1), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn2, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2])))); uint64_t 623 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_unpack_1(_al, (_praIn + 2), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn3, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat3)[0]), (char**)&(((uint64_t*)_seq_nat3)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat3)[1]), (uint32_t*)&(((uint32_t*)_seq_nat3)[2])))); uint64_t 630 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_unpack(_al, (_praIn + 3), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn4, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat4)[0]), (char**)&(((uint64_t*)_seq_nat4)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat4)[1]), (uint32_t*)&(((uint32_t*)_seq_nat4)[2])))); uint64_t 635 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_pack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2])))); uint64_t 639 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_pack_1((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat3)[0]), (char**)&(((uint64_t*)_seq_nat3)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat3)[1]), (uint32_t*)&(((uint32_t*)_seq_nat3)[2])))); uint64_t 643 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c _TRY(_nErr, _skel_pack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat4)[0]), (char**)&(((uint64_t*)_seq_nat4)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat4)[1]), (uint32_t*)&(((uint32_t*)_seq_nat4)[2])))); uint64_t 164 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint64_t buf; uint64_t 177 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c pn = malloc(size + sizeof(_heap) - sizeof(uint64_t)); uint64_t 336 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c const uint64_t* value64s; uint64_t 673 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _count(_numIn, _numROut, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2]))); uint64_t 677 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _count_1(_numIn, _numROut, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat3)[0]), (char**)&(((uint64_t*)_seq_nat3)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat3)[1]), (uint32_t*)&(((uint32_t*)_seq_nat3)[2]))); uint64_t 681 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _count(_numIn, _numROut, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat4)[0]), (char**)&(((uint64_t*)_seq_nat4)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat4)[1]), (uint32_t*)&(((uint32_t*)_seq_nat4)[2]))); uint64_t 697 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_pack(_al, (_praIn + 1), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn2, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2])))); uint64_t 704 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_pack_1(_al, (_praIn + 2), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn3, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat3)[0]), (char**)&(((uint64_t*)_seq_nat3)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat3)[1]), (uint32_t*)&(((uint32_t*)_seq_nat3)[2])))); uint64_t 711 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_pack(_al, (_praIn + 3), _ppraIn, (_praROut + 0), _ppraROut, _seq_primIn4, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat4)[0]), (char**)&(((uint64_t*)_seq_nat4)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat4)[1]), (uint32_t*)&(((uint32_t*)_seq_nat4)[2])))); uint64_t 716 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_unpack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat2)[0]), (char**)&(((uint64_t*)_seq_nat2)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat2)[1]), (uint32_t*)&(((uint32_t*)_seq_nat2)[2])))); uint64_t 720 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_unpack_1((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat3)[0]), (char**)&(((uint64_t*)_seq_nat3)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat3)[1]), (uint32_t*)&(((uint32_t*)_seq_nat3)[2])))); uint64_t 724 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c _TRY(_nErr, _stub_unpack((_praROutPost + 0), _ppraROutPost, 0, SLIM_IFPTR32((char**)&(((uint32_t*)_seq_nat4)[0]), (char**)&(((uint64_t*)_seq_nat4)[0])), SLIM_IFPTR32((uint32_t*)&(((uint32_t*)_seq_nat4)[1]), (uint32_t*)&(((uint32_t*)_seq_nat4)[2])))); uint64_t 246 src/runtime/hexagon_remote/halide_remote.cpp request.mips_bw.bwBytePerSec = ((uint64_t) bwMegabytesPerSec) << 20; uint64_t 263 src/runtime/hexagon_remote/halide_remote.cpp uint64_t bwBytePerSec = 0; uint64_t 378 src/runtime/hexagon_remote/halide_remote.cpp uint64_t dev; uint64_t 366 src/runtime/hexagon_remote/sim_remote.cpp uint64_t dev; uint64_t 66 src/runtime/hexagon_remote/thread_pool.cpp uint64_t _private[8]; uint64_t 356 src/runtime/matlab.cpp case 64: *reinterpret_cast<uint64_t *>(scalar) = static_cast<uint64_t>(value); return halide_error_code_success; uint64_t 347 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 361 src/runtime/metal.cpp buf->device = (uint64_t)metal_buf; uint64_t 366 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 381 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 391 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 417 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 422 src/runtime/metal.cpp uint64_t t_before_compile = halide_current_time_ns(user_context); uint64_t 433 src/runtime/metal.cpp uint64_t t_after_compile = halide_current_time_ns(user_context); uint64_t 439 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 466 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 477 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 532 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 544 src/runtime/metal.cpp c.dst = (uint64_t)buffer_contents(metal_buffer); uint64_t 563 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 573 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 590 src/runtime/metal.cpp c.src = (uint64_t)buffer_contents((mtl_buffer *)c.src); uint64_t 595 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 616 src/runtime/metal.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 691 src/runtime/metal.cpp halide_assert(user_context, arg_sizes[i] == sizeof(uint64_t)); uint64_t 721 src/runtime/metal.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 768 src/runtime/metal.cpp uint64_t buffer = buf->device; uint64_t 47 src/runtime/mini_cl.h typedef uint64_t cl_ulong; uint64_t 7 src/runtime/mips_cpu_features.cpp const uint64_t known = 0; uint64_t 8 src/runtime/mips_cpu_features.cpp const uint64_t available = 0; uint64_t 10 src/runtime/msan.cpp WEAK void halide_msan_annotate_memory_is_initialized(void *user_context, const void *ptr, uint64_t len) { uint64_t 25 src/runtime/msan.cpp for (uint64_t i = 0; i < c.extent[d]; i++) { uint64_t 5 src/runtime/msan_stubs.cpp WEAK void halide_msan_annotate_memory_is_initialized(void *user_context, const void *ptr, uint64_t len) {} uint64_t 7 src/runtime/old_buffer_t.cpp uint64_t device; uint64_t 24 src/runtime/old_buffer_t.cpp case 8: new_buf->type = halide_type_of<uint64_t>(); break; uint64_t 96 src/runtime/old_buffer_t.cpp old_buf->dev = (uint64_t)wrapper; uint64_t 234 src/runtime/opencl.cpp << ": asked for " << (uint64_t)size uint64_t 235 src/runtime/opencl.cpp << ", actual allocated " << (uint64_t)real_size << "\n"; uint64_t 421 src/runtime/opencl.cpp << " max workgroup size: " << (uint64_t)max_work_group_size << "\n" uint64_t 423 src/runtime/opencl.cpp << " max work item sizes: " << (uint64_t)max_work_item_sizes[0] uint64_t 424 src/runtime/opencl.cpp << "x" << (uint64_t)max_work_item_sizes[1] uint64_t 425 src/runtime/opencl.cpp << "x" << (uint64_t)max_work_item_sizes[2] uint64_t 426 src/runtime/opencl.cpp << "x" << (uint64_t)max_work_item_sizes[3] << "\n"; uint64_t 481 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 499 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 520 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 612 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 627 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 638 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 723 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 738 src/runtime/opencl.cpp buf->device = (uint64_t)dev_ptr; uint64_t 747 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 757 src/runtime/opencl.cpp uint64_t off, int d, bool d_to_h) { uint64_t 851 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 867 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 888 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 904 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 939 src/runtime/opencl.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 956 src/runtime/opencl.cpp uint64_t t_create_kernel = halide_current_time_ns(user_context); uint64_t 976 src/runtime/opencl.cpp halide_assert(user_context, arg_sizes[i] == sizeof(uint64_t)); uint64_t 977 src/runtime/opencl.cpp uint64_t opencl_handle = *((uint64_t *)this_arg); uint64_t 1033 src/runtime/opencl.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 1071 src/runtime/opencl.cpp uint64_t mem = buf->device; uint64_t 9 src/runtime/opengl.cpp #define HALIDE_OPENGL_RENDER_TARGET ((uint64_t)-1) uint64_t 985 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 1065 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 1177 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 1275 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 1516 src/runtime/opengl.cpp uint64_t handle = *(uint64_t *)args[i]; uint64_t 1537 src/runtime/opengl.cpp uint64_t handle = *(uint64_t *)args[i]; uint64_t 1670 src/runtime/opengl.cpp uint64_t handle = *(uint64_t *)args[i]; uint64_t 2135 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 2155 src/runtime/opengl.cpp uint64_t handle = buf->device; uint64_t 195 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 222 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 234 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 295 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 305 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 330 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 341 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 366 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 376 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 408 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 432 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 483 src/runtime/openglcompute.cpp uint64_t arg_value = *(uint64_t *)args[i]; uint64_t 503 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 513 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 522 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 545 src/runtime/openglcompute.cpp uint64_t t_before = halide_current_time_ns(user_context); uint64_t 648 src/runtime/openglcompute.cpp uint64_t t_after = halide_current_time_ns(user_context); uint64_t 15 src/runtime/osx_clock.cpp WEAK uint64_t halide_reference_clock = 0; uint64_t 21 src/runtime/osx_clock.cpp extern uint64_t mach_absolute_time(void); uint64_t 36 src/runtime/osx_clock.cpp uint64_t now = mach_absolute_time(); uint64_t 18 src/runtime/powerpc_cpu_features.cpp const uint64_t known = (1ULL << halide_target_feature_vsx) | uint64_t 20 src/runtime/powerpc_cpu_features.cpp uint64_t available = 0; uint64_t 27 src/runtime/printer.h template<int type, uint64_t length = 1024> uint64_t 61 src/runtime/printer.h Printer &operator<<(uint64_t arg) { uint64_t 120 src/runtime/printer.h uint64_t size() const { uint64_t 121 src/runtime/printer.h return (uint64_t)(dst - buf); uint64_t 19 src/runtime/profiler.cpp WEAK halide_profiler_pipeline_stats *find_or_create_pipeline(const char *pipeline_name, int num_funcs, const uint64_t *func_names) { uint64_t 69 src/runtime/profiler.cpp WEAK void bill_func(halide_profiler_state *s, int func_id, uint64_t time, int active_threads) { uint64_t 103 src/runtime/profiler.cpp uint64_t t1 = halide_current_time_ns(NULL); uint64_t 104 src/runtime/profiler.cpp uint64_t t = t1; uint64_t 115 src/runtime/profiler.cpp uint64_t t_now = halide_current_time_ns(NULL); uint64_t 178 src/runtime/profiler.cpp const uint64_t *func_names) { uint64_t 202 src/runtime/profiler.cpp uint64_t *f_values) { uint64_t 223 src/runtime/profiler.cpp uint64_t incr) { uint64_t 246 src/runtime/profiler.cpp uint64_t p_mem_current = __sync_add_and_fetch(&p_stats->memory_current, incr); uint64_t 252 src/runtime/profiler.cpp uint64_t f_mem_current = __sync_add_and_fetch(&f_stats->memory_current, incr); uint64_t 259 src/runtime/profiler.cpp uint64_t decr) { uint64_t 67 src/runtime/qurt_hvx.cpp uint64_t desc = uint64_t 68 src/runtime/qurt_hvx.cpp (static_cast<uint64_t>(dir) << 48) | uint64_t 69 src/runtime/qurt_hvx.cpp (static_cast<uint64_t>(stride_bytes) << 32) | uint64_t 70 src/runtime/qurt_hvx.cpp (static_cast<uint64_t>(width_bytes) << 16) | uint64_t 71 src/runtime/qurt_hvx.cpp (static_cast<uint64_t>(height) << 0); uint64_t 83 src/runtime/qurt_hvx.cpp uint64_t device; uint64_t 93 src/runtime/qurt_hvx.cpp WEAK uint64_t _halide_hexagon_buffer_get_device(const hexagon_buffer_t_arg *buf) { uint64_t 38 src/runtime/runtime_internal.h typedef uint64_t uintptr_t; uint64_t 101 src/runtime/runtime_internal.h WEAK char *halide_uint64_to_string(char *dst, char *end, uint64_t arg, int digits); uint64_t 124 src/runtime/runtime_internal.h uint64_t *f_values); uint64_t 128 src/runtime/runtime_internal.h uint64_t incr); uint64_t 132 src/runtime/runtime_internal.h uint64_t decr); uint64_t 136 src/runtime/runtime_internal.h const uint64_t *func_names); uint64_t 153 src/runtime/runtime_internal.h uint64_t _private[8]; uint64_t 190 src/runtime/runtime_internal.h uint64_t known; // mask of the CPU features we know how to detect uint64_t 191 src/runtime/runtime_internal.h uint64_t available; // mask of the CPU features that are available uint64_t 21 src/runtime/to_string.cpp WEAK char *halide_uint64_to_string(char *dst, char *end, uint64_t arg, int min_digits) { uint64_t 28 src/runtime/to_string.cpp uint64_t top = arg / 10; uint64_t 29 src/runtime/to_string.cpp uint64_t bottom = arg - top * 10; uint64_t 48 src/runtime/to_string.cpp uint64_t bits = 0; uint64_t 51 src/runtime/to_string.cpp uint64_t one = 1; uint64_t 52 src/runtime/to_string.cpp uint64_t mantissa = bits & ((one << 52) - 1); uint64_t 97 src/runtime/to_string.cpp const uint64_t scale = 1000000; uint64_t 117 src/runtime/to_string.cpp uint64_t fixed = (uint64_t)(arg * scale + 0.5); uint64_t 118 src/runtime/to_string.cpp uint64_t top_digit = fixed / scale; uint64_t 119 src/runtime/to_string.cpp uint64_t other_digits = fixed - top_digit * scale; uint64_t 141 src/runtime/to_string.cpp uint64_t n = mantissa + (one << mantissa_bits); uint64_t 145 src/runtime/to_string.cpp uint64_t integer_part = n; uint64_t 148 src/runtime/to_string.cpp uint64_t fractional_part = 0; uint64_t 166 src/runtime/to_string.cpp uint64_t bits; uint64_t 170 src/runtime/to_string.cpp multiplier.bits += (uint64_t)(exponent) << mantissa_bits; uint64_t 177 src/runtime/to_string.cpp fractional_part = (uint64_t)f; uint64_t 235 src/runtime/to_string.cpp uint64_t bits = (uint64_t)arg; uint64_t 133 src/runtime/tracing.cpp ss << ((uint64_t *)(e->value))[i]; uint64_t 13 src/runtime/windows_threads.cpp typedef uint64_t ConditionVariable; uint64_t 14 src/runtime/windows_threads.cpp typedef uint64_t InitOnce; uint64_t 17 src/runtime/windows_threads.cpp uint64_t buf[5]; uint64_t 14 src/runtime/x86_cpu_features.cpp const uint64_t known = ((1ULL << halide_target_feature_sse41) | uint64_t 24 src/runtime/x86_cpu_features.cpp uint64_t available = 0; uint64_t 11 test/correctness/cast_handle.cpp f(x) = reinterpret<uint64_t>(handle); uint64_t 12 test/correctness/cast_handle.cpp g(x) = reinterpret<uint64_t>(handle); uint64_t 18 test/correctness/cast_handle.cpp Buffer<uint64_t> out1 = f.realize(4); uint64_t 21 test/correctness/cast_handle.cpp Buffer<uint64_t> out2 = g.realize(4); uint64_t 23 test/correctness/cast_handle.cpp uint64_t correct = (uint64_t)((uintptr_t)(&foo)); uint64_t 22 test/correctness/constant_expr.cpp const uint64_t *u = as_const_uint(e); uint64_t 82 test/correctness/constant_expr.cpp test_expr_range<uint64_t>(); uint64_t 102 test/correctness/constant_expr.cpp test_expr<uint64_t>(-64); uint64_t 103 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x000000007fffffff); uint64_t 104 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x0000000080000000); uint64_t 105 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x0000000080000001); uint64_t 106 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x00000000ffffffff); uint64_t 107 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x00000001ffffffff); uint64_t 108 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x7fffffff00000000); uint64_t 109 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x7fffffff80000000); uint64_t 110 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0xffffffff80000000); uint64_t 111 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0xffffffff00000001); uint64_t 112 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x7FFFFFFFFFFFFFFF); uint64_t 113 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x8000000000000000); uint64_t 114 test/correctness/constant_expr.cpp test_expr<uint64_t>((uint64_t) 0x8000000000000001); uint64_t 75 test/correctness/gpu_mixed_shared_mem_types.cpp result = check_result<uint64_t>(output, n_types, offset); uint64_t 57 test/correctness/handle.cpp uint64_t handle = (uint64_t)(im(0)); uint64_t 26 test/correctness/infer_arguments.cpp const uint64_t kU64 = 0xf00dcafedeadbeef; uint64_t 27 test/correctness/infer_arguments.cpp Param<uint64_t> z_unsigned("z_unsigned", 0xdeadbeef, 0x01, Expr(kU64)); uint64_t 72 test/correctness/infer_arguments.cpp EXPECT(true, constant_expr_equals<uint64_t>(z_unsigned_arg.def, 0xdeadbeef)); uint64_t 82 test/correctness/infer_arguments.cpp EXPECT(true, constant_expr_equals<uint64_t>(z_unsigned_arg.min, 0x1)); uint64_t 92 test/correctness/infer_arguments.cpp EXPECT(true, constant_expr_equals<uint64_t>(z_unsigned_arg.max, 0xf00dcafedeadbeef)); uint64_t 27 test/correctness/input_larger_than_two_gigs.cpp grand_total() = cast<uint64_t>(input(0, 0, 0) + input(input.dim(0).extent()-1, input.dim(1).extent()-1, input.dim(2).extent()-1)); uint64_t 32 test/correctness/input_larger_than_two_gigs.cpp Buffer<uint64_t> result; uint64_t 37 test/correctness/input_larger_than_two_gigs.cpp assert(result(0) == (uint64_t)84); uint64_t 5 test/correctness/lots_of_dimensions.cpp uint64_t fn(int i0, int i1, int i2, int i3, int i4, int i5, int i6, int i7) { uint64_t 6 test/correctness/lots_of_dimensions.cpp uint64_t u0 = (uint64_t)i0; uint64_t 7 test/correctness/lots_of_dimensions.cpp uint64_t u1 = (uint64_t)i1; uint64_t 8 test/correctness/lots_of_dimensions.cpp uint64_t u2 = (uint64_t)i2; uint64_t 9 test/correctness/lots_of_dimensions.cpp uint64_t u3 = (uint64_t)i3; uint64_t 10 test/correctness/lots_of_dimensions.cpp uint64_t u4 = (uint64_t)i4; uint64_t 11 test/correctness/lots_of_dimensions.cpp uint64_t u5 = (uint64_t)i5; uint64_t 12 test/correctness/lots_of_dimensions.cpp uint64_t u6 = (uint64_t)i6; uint64_t 13 test/correctness/lots_of_dimensions.cpp uint64_t u7 = (uint64_t)i7; uint64_t 20 test/correctness/lots_of_dimensions.cpp Buffer<uint64_t> in(2, 3, 4, 5, 6, 7, 8, 9); uint64_t 21 test/correctness/lots_of_dimensions.cpp Buffer<uint64_t> out(2, 3, 4, 5, 6, 7, 8, 9); uint64_t 50 test/correctness/lots_of_dimensions.cpp uint64_t correct = fn(i0, i1, i2, i3, i4, i5, i6, i7); uint64_t 51 test/correctness/lots_of_dimensions.cpp uint64_t actual = in(i0, i1, i2, i3, i4, i5, i6, i7); uint64_t 86 test/correctness/lots_of_dimensions.cpp uint64_t correct = in(i0, i1, i2, i3, i4, i5, i6, i7); uint64_t 89 test/correctness/lots_of_dimensions.cpp uint64_t actual = out(i0, i1, i2, i3, i4, i5, i6, i7); uint64_t 41 test/correctness/mul_div_mod.cpp uint64_t ubits(int unique, int i, int j) { uint64_t 42 test/correctness/mul_div_mod.cpp uint64_t bits, mi, mj, mk, ml, mu; uint64_t 131 test/correctness/mul_div_mod.cpp uint64_t max; uint64_t 135 test/correctness/mul_div_mod.cpp max = (((uint64_t) 1) << t.bits()) - 1; uint64_t 139 test/correctness/mul_div_mod.cpp uint64_t umax; uint64_t 140 test/correctness/mul_div_mod.cpp umax = (((uint64_t) 1) << (t.bits() - 1)) - 1; uint64_t 158 test/correctness/mul_div_mod.cpp uint64_t umax; uint64_t 160 test/correctness/mul_div_mod.cpp umax = (((uint64_t) 1) << (t.bits() - 1)) - 1; uint64_t 214 test/correctness/mul_div_mod.cpp uint64_t max, v, vsalt; uint64_t 237 test/correctness/mul_div_mod.cpp uint64_t uv, vsalt; uint64_t 238 test/correctness/mul_div_mod.cpp uint64_t max = (uint64_t)(-1); uint64_t 508 test/correctness/mul_div_mod.cpp success &= mul<uint8_t, uint8_t, uint8_t, uint64_t>(vector_width, scheduling, target); uint64_t 509 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, uint16_t, uint16_t, uint64_t>(vector_width, scheduling, target); uint64_t 510 test/correctness/mul_div_mod.cpp success &= mul<uint32_t, uint32_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint64_t 516 test/correctness/mul_div_mod.cpp success &= mul<uint8_t, uint8_t, uint16_t, uint64_t>(vector_width, scheduling, target); uint64_t 517 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, uint16_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint64_t 524 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, uint32_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint64_t 525 test/correctness/mul_div_mod.cpp success &= mul<int16_t, int32_t, int32_t, uint64_t>(vector_width, scheduling, target); uint64_t 526 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, int32_t, int32_t, uint64_t>(vector_width, scheduling, target); uint64_t 534 test/correctness/mul_div_mod.cpp success &= div_mod<uint8_t, uint64_t>(vector_width, scheduling, target); uint64_t 535 test/correctness/mul_div_mod.cpp success &= div_mod<uint16_t, uint64_t>(vector_width, scheduling, target); uint64_t 536 test/correctness/mul_div_mod.cpp success &= div_mod<uint32_t, uint64_t>(vector_width, scheduling, target); uint64_t 98 test/correctness/print.cpp uint64_t n = i; uint64_t 106 test/correctness/print.cpp args.push_back((cast<uint64_t>(hi) << 32) | lo); uint64_t 112 test/correctness/print.cpp Buffer<uint64_t> result = f.realize(1); uint64_t 175 test/correctness/print.cpp g(x) = print(reinterpret(Float(64), (cast<uint64_t>(random_uint()) << 32) | random_uint())); uint64_t 233 test/correctness/saturating_casts.cpp test_saturating<source_t, uint64_t>(); uint64_t 258 test/correctness/saturating_casts.cpp test_concise<source_t, uint64_t>(u64, false); uint64_t 260 test/correctness/saturating_casts.cpp test_concise<source_t, uint64_t>(u64_sat, true); uint64_t 277 test/correctness/saturating_casts.cpp test_one_source<uint64_t>(); uint64_t 119 test/correctness/vector_math.cpp typedef uint64_t type; uint64_t 584 test/correctness/vector_math.cpp uint64_t divisor = 1; uint64_t 41 test/generator/can_use_target_aottest.cpp uint64_t host_features = 0; uint64_t 65 test/generator/cxx_mangling_aottest.cpp int64_t, uint64_t, uint64_t 28 test/generator/cxx_mangling_define_extern_aottest.cpp int cxx_mangling_1(void *ctx, halide_buffer_t *_input_buffer, int8_t _offset_i8, uint8_t _offset_u8, int16_t _offset_i16, uint16_t _offset_u16, int32_t _offset_i32, uint32_t _offset_u32, int64_t _offset_i64, uint64_t _offset_u64, bool _scale_direction, float _scale_f, double _scale_d, int32_t *_ptr, int32_t const *_const_ptr, void *_void_ptr, void const *_const_void_ptr, void *_string_ptr, void const *_const_string_ptr, halide_buffer_t *_f_buffer) { uint64_t 32 test/generator/cxx_mangling_define_extern_aottest.cpp int cxx_mangling_2(void *ctx, halide_buffer_t *_input_buffer, int8_t _offset_i8, uint8_t _offset_u8, int16_t _offset_i16, uint16_t _offset_u16, int32_t _offset_i32, uint32_t _offset_u32, int64_t _offset_i64, uint64_t _offset_u64, bool _scale_direction, float _scale_f, double _scale_d, int32_t *_ptr, int32_t const *_const_ptr, void *_void_ptr, void const *_const_void_ptr, void *_string_ptr, void const *_const_string_ptr, halide_buffer_t *_f_buffer) { uint64_t 36 test/generator/cxx_mangling_define_extern_aottest.cpp extern "C" int cxx_mangling_3(void *ctx, halide_buffer_t *_input_buffer, int8_t _offset_i8, uint8_t _offset_u8, int16_t _offset_i16, uint16_t _offset_u16, int32_t _offset_i32, uint32_t _offset_u32, int64_t _offset_i64, uint64_t _offset_u64, bool _scale_direction, float _scale_f, double _scale_d, int32_t *_ptr, int32_t const *_const_ptr, void *_void_ptr, void const *_const_void_ptr, void *_string_ptr, void const *_const_string_ptr, halide_buffer_t *_f_buffer) { uint64_t 34 test/generator/cxx_mangling_define_extern_generator.cpp args.push_back(cast<uint64_t>(8)); uint64_t 43 test/generator/cxx_mangling_generator.cpp Param<uint64_t> offset_u64{"offset_u64", 0}; uint64_t 23 test/generator/float16_t_aottest.cpp double double_from_bits(uint64_t bits) { uint64_t 26 test/generator/float16_t_aottest.cpp uint64_t asUInt; uint64_t 106 test/generator/float16_t_aottest.cpp uint64_t asUInt; uint64_t 118 test/generator/float16_t_aottest.cpp uint64_t asUInt; uint64_t 136 test/generator/image_from_array_aottest.cpp test<uint64_t>(); uint64_t 32 test/generator/memory_profiler_mandelbrot_aottest.cpp const uint64_t mandelbrot_heap_per_iter = 2*tile_x*tile_y*4*(iters+1); // Heap per iter for one task uint64_t 33 test/generator/memory_profiler_mandelbrot_aottest.cpp const uint64_t mandelbrot_heap_total = mandelbrot_heap_per_iter * y_niters * x_niters * num_launcher_tasks; uint64_t 231 test/generator/metadata_tester_aottest.cpp const halide_scalar_value_t *make_scalar(uint64_t v) { uint64_t 401 test/generator/metadata_tester_aottest.cpp make_scalar<uint64_t>(640), uint64_t 402 test/generator/metadata_tester_aottest.cpp make_scalar<uint64_t>(64), uint64_t 403 test/generator/metadata_tester_aottest.cpp make_scalar<uint64_t>(2550), uint64_t 23 test/generator/metadata_tester_generator.cpp Input<uint64_t> u64{ "u64", 640, 64, 2550 }; uint64_t 81 test/generator/msan_aottest.cpp extern "C" void halide_msan_annotate_memory_is_initialized(void *user_context, const void *ptr, uint64_t len) { uint64_t 43 test/generator/multitarget_aottest.cpp int my_can_use_target_features(uint64_t features) { uint64_t 22 tools/find_inverse.cpp uint64_t max = (1L << bits) - 1; uint64_t 25 tools/find_inverse.cpp uint64_t num = r(0, max); uint64_t 29 tools/find_inverse.cpp uint64_t result = num; uint64_t 37 tools/find_inverse.cpp uint64_t max = (1L << bits) - 1; uint64_t 40 tools/find_inverse.cpp uint64_t num = r(0, max); uint64_t 44 tools/find_inverse.cpp uint64_t result = num; uint64_t 55 tools/find_inverse.cpp uint64_t max = (1UL << bits) - 1; uint64_t 58 tools/find_inverse.cpp uint64_t num = r(0, max); uint64_t 62 tools/find_inverse.cpp uint64_t result = num; uint64_t 99 tools/find_inverse.cpp uint64_t xsign = result >> (bits-1); uint64_t 100 tools/find_inverse.cpp uint64_t q0 = (mul * (xsign ^ result)) >> bits; uint64_t 84 tools/halide_image_info.h uint64_t dev = buf->dev; uint64_t 102 tutorial/lesson_14_types.cpp Expr u64 = cast<uint64_t>(x); uint64_t 71 util/HalideTraceViz.cpp return (T)(((const uint64_t *)value())[idx]); uint64_t 201 util/HalideTraceViz.cpp uint64_t stores = 0, loads = 0;