uint32_t 39 apps/HelloAndroidCamera2/jni/LockedSurface.cpp uint32_t lumaRowStrideBytes = buffer_.stride; uint32_t 40 apps/HelloAndroidCamera2/jni/LockedSurface.cpp uint32_t lumaSizeBytes = lumaRowStrideBytes * buffer_.height; uint32_t 41 apps/HelloAndroidCamera2/jni/LockedSurface.cpp uint32_t chromaRowStrideBytes = ALIGN(buffer_.stride / 2, 16); uint32_t 43 apps/HelloAndroidCamera2/jni/LockedSurface.cpp uint32_t chromaSizeBytes = chromaRowStrideBytes * buffer_.height / 2; uint32_t 13 apps/hexagon_matmul/pipeline.cpp Output<Buffer<uint32_t>> output{"output", 2}; uint32_t 54 apps/hexagon_matmul/process.cpp Halide::Runtime::Buffer<uint32_t> mat_ab(nullptr, K, M); uint32_t 94 apps/hexagon_matmul/process.cpp uint32_t ab_xy = 0; uint32_t 96 apps/hexagon_matmul/process.cpp ab_xy += static_cast<uint32_t>(mat_a(k, y))*static_cast<uint32_t>(mat_b(x, k)); uint32_t 214 apps/openglcompute/jni/oglc_run.cpp template<> bool doBlur<uint32_t>(Tester<uint32_t> *tester, uint32_t 215 apps/openglcompute/jni/oglc_run.cpp Buffer<uint32_t> bt_input, uint32_t 216 apps/openglcompute/jni/oglc_run.cpp Buffer<uint32_t> bt_output, uint32_t 217 apps/openglcompute/jni/oglc_run.cpp Buffer<uint32_t> bt_output_arm) { uint32_t 227 apps/openglcompute/jni/oglc_run.cpp (new Tester<uint32_t>())->runTest(); uint32_t 83 apps/simd_op_check/driver.cpp make_buffer<uint32_t>(W, H), uint32_t 198 python_bindings/numpy/dtype.cpp array_scalar_converter<boost::uint32_t>::declare(); uint32_t 179 python_bindings/python/BoundaryConditions.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 196 python_bindings/python/BoundaryConditions.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 213 python_bindings/python/BoundaryConditions.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 231 python_bindings/python/BoundaryConditions.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 250 python_bindings/python/BoundaryConditions.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 294 python_bindings/python/Func.cpp .def("realize", &func_realize_into<h::Buffer<uint32_t>>, uint32_t 297 python_bindings/python/Func.cpp .def("realize", &func_realize_into<h::Buffer<uint32_t>, h::Target>, uint32_t 423 python_bindings/python/Image.cpp p::manage_new_object::apply<h::Buffer<uint32_t> *>::type converter; uint32_t 424 python_bindings/python/Image.cpp obj = converter(new h::Buffer<uint32_t>(im)); uint32_t 450 python_bindings/python/Image.cpp p::extract<h::Buffer<uint32_t>> buffer_extract_uint32(obj); uint32_t 484 python_bindings/python/Image.cpp if (t == h::UInt(32)) return bn::dtype::get_builtin<uint32_t>(); uint32_t 497 python_bindings/python/Image.cpp if (t == bn::dtype::get_builtin<uint32_t>()) return h::UInt(32); uint32_t 561 python_bindings/python/Image.cpp if (t == h::UInt(32)) return create_buffer_object<uint32_t>(args...); uint32_t 603 python_bindings/python/Image.cpp defineBuffer_impl<uint32_t>("_uint32", h::UInt(32)); uint32_t 114 python_bindings/python/Param.cpp .def("set", &image_param_set<uint32_t>, p::args("self", "im"), uint32_t 385 python_bindings/python/Param.cpp add_operators_with<pc_t, Param<uint32_t>>(param_class); uint32_t 493 python_bindings/python/Param.cpp typedef boost::mpl::list<boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 565 python_bindings/python/Param.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 572 python_bindings/python/Param.cpp boost::uint8_t, boost::uint16_t, boost::uint32_t, uint32_t 599 python_bindings/python/Param.cpp defineParam_impl<uint32_t>("_uint32", h::UInt(32)); uint32_t 220 src/AssociativeOpsTable.cpp {cast<uint8_t>(min(cast<uint32_t>(x0 + y0), k0_uint32)), zero, true}, uint32_t 238 src/AssociativeOpsTable.cpp {cast<uint16_t>(min(cast<uint32_t>(x0 + y0), k0_uint32)), zero, true}, uint32_t 255 src/AssociativeOpsTable.cpp {cast<uint32_t>(min(cast<uint64_t>(x0 + y0), k0_uint64)), zero, true}, uint32_t 860 src/CodeGen_C.cpp uint32_t as_uint; uint32_t 80 src/Elf.cpp typedef uint32_t addr_t; uint32_t 92 src/Elf.cpp uint32_t e_version; uint32_t 96 src/Elf.cpp uint32_t e_flags; uint32_t 111 src/Elf.cpp uint32_t p_type; uint32_t 112 src/Elf.cpp uint32_t p_offset; uint32_t 115 src/Elf.cpp uint32_t p_filesz; uint32_t 116 src/Elf.cpp uint32_t p_memsz; uint32_t 117 src/Elf.cpp uint32_t p_flags; uint32_t 118 src/Elf.cpp uint32_t p_align; uint32_t 126 src/Elf.cpp uint32_t sh_name; uint32_t 127 src/Elf.cpp uint32_t sh_type; uint32_t 132 src/Elf.cpp uint32_t sh_link; uint32_t 133 src/Elf.cpp uint32_t sh_info; uint32_t 146 src/Elf.cpp uint32_t r_type() const { uint32_t 154 src/Elf.cpp uint32_t r_sym() const { uint32_t 162 src/Elf.cpp static addr_t make_info(uint32_t type, uint32_t sym) { uint32_t 170 src/Elf.cpp void set_r_type(uint32_t type) { uint32_t 174 src/Elf.cpp void set_r_sym(uint32_t sym) { uint32_t 181 src/Elf.cpp Rel(addr_t offset, uint32_t type, uint32_t sym) uint32_t 195 src/Elf.cpp Rela(addr_t offset, uint32_t type, uint32_t sym, addr_off_t addend) uint32_t 204 src/Elf.cpp uint32_t st_name; uint32_t 205 src/Elf.cpp uint32_t st_value; uint32_t 206 src/Elf.cpp uint32_t st_size; uint32_t 231 src/Elf.cpp uint32_t d_tag; uint32_t 233 src/Elf.cpp uint32_t d_val; uint32_t 242 src/Elf.cpp std::map<std::string, uint32_t> cache; uint32_t 254 src/Elf.cpp uint32_t get(const std::string &str) { uint32_t 255 src/Elf.cpp uint32_t &index = cache[str]; uint32_t 777 src/Elf.cpp std::vector<uint32_t> hash_table(bucket_count + sym_count + 2); uint32_t 780 src/Elf.cpp uint32_t *buckets = &hash_table[2]; uint32_t 781 src/Elf.cpp uint32_t *chains = buckets + bucket_count; uint32_t 784 src/Elf.cpp uint32_t hash = elf_hash(name) % bucket_count; uint32_t 927 src/Elf.cpp dynamic.append_contents((uint32_t)DT_NULL); uint32_t 74 src/Elf.h uint32_t size = 0; uint32_t 103 src/Elf.h Symbol &define(const Section *section, uint64_t offset, uint32_t size) { uint32_t 112 src/Elf.h uint32_t get_size() const { return size; } uint32_t 134 src/Elf.h uint32_t type = 0; uint32_t 141 src/Elf.h Relocation(uint32_t type, uint64_t offset, int64_t addend, const Symbol *symbol) uint32_t 147 src/Elf.h Relocation &set_type(uint32_t type) { uint32_t 151 src/Elf.h uint32_t get_type() const { return type; } uint32_t 182 src/Elf.h enum Type : uint32_t { uint32_t 201 src/Elf.h enum Flag : uint32_t { uint32_t 218 src/Elf.h uint32_t flags = 0; uint32_t 248 src/Elf.h Section &set_flags(uint32_t flags) { uint32_t 252 src/Elf.h uint32_t get_flags() const { return flags; } uint32_t 332 src/Elf.h virtual uint32_t get_flags() = 0; uint32_t 333 src/Elf.h virtual uint32_t get_version() = 0; uint32_t 387 src/Elf.h uint32_t version = 0; uint32_t 389 src/Elf.h uint32_t flags = 0; uint32_t 399 src/Elf.h uint32_t get_version() const { return version; } uint32_t 401 src/Elf.h uint32_t get_flags() const { return flags; } uint32_t 411 src/Elf.h Object &set_version(uint32_t version) { uint32_t 419 src/Elf.h Object &set_flags(uint32_t flags) { uint32_t 280 src/Expr.h EXPORT explicit Expr(uint32_t x) : IRHandle(Internal::UIntImm::make(UInt(32), x)) {} uint32_t 81 src/FastIntegerDivide.cpp Buffer<uint32_t> integer_divide_table_u32() { uint32_t 85 src/FastIntegerDivide.cpp static Buffer<uint32_t> im(256, 2); uint32_t 98 src/FastIntegerDivide.cpp Buffer<uint32_t> integer_divide_table_s32() { uint32_t 102 src/FastIntegerDivide.cpp static Buffer<uint32_t> im(256, 2); uint32_t 151 src/FastIntegerDivide.cpp Buffer<uint32_t> table = IntegerDivideTable::integer_divide_table_u32(); uint32_t 193 src/FastIntegerDivide.cpp Buffer<uint32_t> table = IntegerDivideTable::integer_divide_table_s32(); uint32_t 17 src/FastIntegerDivide.h EXPORT Buffer<uint32_t> integer_divide_table_u32(); uint32_t 18 src/FastIntegerDivide.h EXPORT Buffer<uint32_t> integer_divide_table_s32(); uint32_t 350 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(uint32_t) uint32_t 434 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(uint32_t) uint32_t 149 src/HexagonOffload.cpp bool maybe_branch_inst(uint32_t reloc_type) { uint32_t 186 src/HexagonOffload.cpp std::string hex(uint32_t x) { uint32_t 192 src/HexagonOffload.cpp void do_reloc(char *addr, uint32_t mask, uintptr_t val, bool is_signed, bool verify) { uint32_t 193 src/HexagonOffload.cpp uint32_t inst = *((uint32_t *)addr); uint32_t 237 src/HexagonOffload.cpp uint32_t hi = (inst >> 16) & ((1 << 13) - 1); uint32_t 307 src/HexagonOffload.cpp *((uint32_t *)addr) = inst; uint32_t 310 src/HexagonOffload.cpp void do_relocation(uint32_t fixup_offset, char *fixup_addr, uint32_t type, uint32_t 311 src/HexagonOffload.cpp const Symbol *sym, uint32_t sym_offset, int32_t addend, uint32_t 317 src/HexagonOffload.cpp uint32_t S = sym_offset; uint32_t 318 src/HexagonOffload.cpp uint32_t P = fixup_offset; uint32_t 320 src/HexagonOffload.cpp uint32_t GP = 0; uint32_t 322 src/HexagonOffload.cpp uint32_t G = got.contents_size(); uint32_t 332 src/HexagonOffload.cpp const uint32_t Word32 = 0xffffffff; uint32_t 333 src/HexagonOffload.cpp const uint32_t Word16 = 0xffff; uint32_t 334 src/HexagonOffload.cpp const uint32_t Word8 = 0xff; uint32_t 335 src/HexagonOffload.cpp const uint32_t Word32_B22 = 0x01ff3ffe; uint32_t 336 src/HexagonOffload.cpp const uint32_t Word32_B15 = 0x00df20fe; uint32_t 337 src/HexagonOffload.cpp const uint32_t Word32_B13 = 0x00202ffe; uint32_t 338 src/HexagonOffload.cpp const uint32_t Word32_B9 = 0x003000fe; uint32_t 339 src/HexagonOffload.cpp const uint32_t Word32_B7 = 0x00001f18; uint32_t 340 src/HexagonOffload.cpp const uint32_t Word32_GP = 0; // The mask is instruction-specific uint32_t 341 src/HexagonOffload.cpp const uint32_t Word32_X26 = 0x0fff3fff; uint32_t 342 src/HexagonOffload.cpp const uint32_t Word32_U6 = 0; // The mask is instruction-specific uint32_t 343 src/HexagonOffload.cpp const uint32_t Word32_R6 = 0x000007e0; uint32_t 344 src/HexagonOffload.cpp const uint32_t Word32_LO = 0x00c03fff; uint32_t 468 src/HexagonOffload.cpp got.append_contents((uint32_t)0); uint32_t 475 src/HexagonOffload.cpp uint32_t flags; uint32_t 486 src/HexagonOffload.cpp uint32_t get_flags() override { return flags; } uint32_t 487 src/HexagonOffload.cpp uint32_t get_version() override { return EV_CURRENT; } uint32_t 489 src/HexagonOffload.cpp dynamic.append_contents((uint32_t)DT_HEXAGON_VER); uint32_t 490 src/HexagonOffload.cpp dynamic.append_contents((uint32_t)0x3); uint32_t 503 src/HexagonOffload.cpp got.append_contents((uint32_t)0); uint32_t 533 src/HexagonOffload.cpp got.append_contents((uint32_t)0); uint32_t 537 src/HexagonOffload.cpp uint32_t plt_offset = plt.get_size(); uint32_t 30 src/IREquality.h uint32_t hash(const Expr &a, const Expr &b) const { uint32_t 39 src/IREquality.h uint32_t bottom = mix & ((1 << bits) - 1); uint32_t 47 src/IREquality.h uint32_t h = hash(a, b); uint32_t 53 src/IREquality.h uint32_t h = hash(a, b); uint32_t 85 src/IROperator.h inline Expr make_const(Type t, uint32_t val) {return make_const(t, (uint64_t)val);} uint32_t 137 src/Introspection.cpp uint32_t line; uint32_t 138 src/Introspection.cpp uint32_t file; // Index into source_files uint32_t 963 src/Introspection.cpp void parse_debug_abbrev(const llvm::DataExtractor &e, uint32_t off = 0) { uint32_t 995 src/Introspection.cpp uint32_t off = 0; uint32_t 1859 src/Introspection.cpp uint32_t off = 0; uint32_t 1864 src/Introspection.cpp uint32_t unit_length = e.getU32(&off); uint32_t 1871 src/Introspection.cpp uint32_t unit_end = off + unit_length; uint32_t 1878 src/Introspection.cpp uint32_t header_length = e.getU32(&off); uint32_t 1879 src/Introspection.cpp uint32_t end_header_off = off + header_length; uint32_t 1934 src/Introspection.cpp uint32_t op_index; uint32_t 1936 src/Introspection.cpp uint32_t file, line, column; uint32_t 1939 src/Introspection.cpp uint32_t isa; uint32_t 1941 src/Introspection.cpp uint32_t discriminator; uint32_t 1970 src/Introspection.cpp uint32_t ext_offset = off; uint32_t 1972 src/Introspection.cpp uint32_t arg_size = len - (off - ext_offset); uint32_t 118 src/Memoization.cpp uint32_t size; uint32_t 130 src/Memoization.cpp DependencyKey(uint32_t size_arg, const std::string &name_arg) uint32_t 170 src/Parameter.cpp case 32: return Expr(get_scalar<uint32_t>()); uint32_t 81 src/Random.cpp result = Let::make(name, result + cast<uint32_t>(e[i]), uint32_t 91 src/Random.cpp result = (127 << 23) | (cast<uint32_t>(result) >> 9); uint32_t 61 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(uint32_t) uint32_t 212 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(uint32_t) uint32_t 6211 src/Simplify.cpp uint32_t u1 = (uint32_t)i1; uint32_t 6212 src/Simplify.cpp uint32_t u2 = (uint32_t)i2; uint32_t 6257 src/Simplify.cpp check(cast(UInt(32), x) & Expr((uint32_t)0xaaaaaaaa), uint32_t 6258 src/Simplify.cpp cast(UInt(32), x) & Expr((uint32_t)0xaaaaaaaa)); uint32_t 126 src/Target.cpp const uint32_t avx2 = 1U << 5; uint32_t 127 src/Target.cpp const uint32_t avx512f = 1U << 16; uint32_t 128 src/Target.cpp const uint32_t avx512dq = 1U << 17; uint32_t 129 src/Target.cpp const uint32_t avx512pf = 1U << 26; uint32_t 130 src/Target.cpp const uint32_t avx512er = 1U << 27; uint32_t 131 src/Target.cpp const uint32_t avx512cd = 1U << 28; uint32_t 132 src/Target.cpp const uint32_t avx512bw = 1U << 30; uint32_t 133 src/Target.cpp const uint32_t avx512vl = 1U << 31; uint32_t 134 src/Target.cpp const uint32_t avx512ifma = 1U << 21; uint32_t 135 src/Target.cpp const uint32_t avx512 = avx512f | avx512cd; uint32_t 136 src/Target.cpp const uint32_t avx512_knl = avx512 | avx512pf | avx512er; uint32_t 137 src/Target.cpp const uint32_t avx512_skylake = avx512 | avx512vl | avx512bw | avx512dq; uint32_t 138 src/Target.cpp const uint32_t avx512_cannonlake = avx512_skylake | avx512ifma; // Assume ifma => vbmi uint32_t 143 src/Type.h HALIDE_DECLARE_EXTERN_SIMPLE_TYPE(uint32_t); uint32_t 66 src/Util.cpp uint32_t size = sizeof(path); uint32_t 282 src/Util.cpp static_cast<uint32_t>(a.st_mtime), uint32_t 283 src/Util.cpp static_cast<uint32_t>(a.st_uid), uint32_t 284 src/Util.cpp static_cast<uint32_t>(a.st_gid), uint32_t 285 src/Util.cpp static_cast<uint32_t>(a.st_mode)}; uint32_t 173 src/Util.h uint32_t mod_time; // Unix epoch time uint32_t 174 src/Util.h uint32_t uid; uint32_t 175 src/Util.h uint32_t gid; uint32_t 176 src/Util.h uint32_t mode; uint32_t 1004 src/runtime/HalideBuffer.h using MemType = uint32_t; uint32_t 396 src/runtime/HalideRuntime.h uint32_t size; uint32_t 965 src/runtime/HalideRuntime.h uint32_t flags; uint32_t 969 src/runtime/HalideRuntime.h HALIDE_ALWAYS_INLINE halide_dimension_t(int32_t m, int32_t e, int32_t s, uint32_t f = 0) : uint32_t 1177 src/runtime/HalideRuntime.h uint32_t u32; uint32_t 1442 src/runtime/HalideRuntime.h HALIDE_ALWAYS_INLINE halide_type_t halide_type_of<uint32_t>() { uint32_t 90 src/runtime/cache.cpp uint32_t hash; uint32_t 91 src/runtime/cache.cpp uint32_t in_use_count; // 0 if none returned from halide_cache_lookup uint32_t 92 src/runtime/cache.cpp uint32_t tuple_count; uint32_t 100 src/runtime/cache.cpp uint32_t key_hash, uint32_t 110 src/runtime/cache.cpp uint32_t hash; uint32_t 118 src/runtime/cache.cpp uint32_t key_hash, const halide_buffer_t *computed_bounds_buf, uint32_t 166 src/runtime/cache.cpp for (uint32_t i = 0; i < tuple_count; i++) { uint32_t 177 src/runtime/cache.cpp for (uint32_t i = 0; i < tuple_count; i++) { uint32_t 184 src/runtime/cache.cpp WEAK uint32_t djb_hash(const uint8_t *key, size_t key_size) { uint32_t 185 src/runtime/cache.cpp uint32_t h = 5381; uint32_t 266 src/runtime/cache.cpp uint32_t h = prune_candidate->hash; uint32_t 267 src/runtime/cache.cpp uint32_t index = h % kHashTableSize; uint32_t 298 src/runtime/cache.cpp for (uint32_t i = 0; i < prune_candidate->tuple_count; i++) { uint32_t 331 src/runtime/cache.cpp uint32_t h = djb_hash(cache_key, size); uint32_t 332 src/runtime/cache.cpp uint32_t index = h % kHashTableSize; uint32_t 354 src/runtime/cache.cpp entry->tuple_count == (uint32_t)tuple_count) { uint32_t 425 src/runtime/cache.cpp uint32_t h = get_pointer_to_header(tuple_buffers[0]->host)->hash; uint32_t 427 src/runtime/cache.cpp uint32_t index = h % kHashTableSize; uint32_t 449 src/runtime/cache.cpp entry->tuple_count == (uint32_t)tuple_count) { uint32_t 9 src/runtime/float16_t.cpp uint32_t signMask = (bits & 0x8000) << 16; uint32_t 12 src/runtime/float16_t.cpp uint32_t asUInt; uint32_t 15 src/runtime/float16_t.cpp uint32_t significandBits = (bits & 0x3ff); uint32_t 29 src/runtime/float16_t.cpp uint32_t newSignificand = significandBits; uint32_t 39 src/runtime/float16_t.cpp uint32_t reEncodedExponent = newExponent + 127; uint32_t 52 src/runtime/float16_t.cpp uint32_t reEncodedExponent; uint32_t 285 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t iid;\ uint32_t 286 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t bNotNil;\ uint32_t 297 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t bFloating;\ uint32_t 298 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t bSigned;\ uint32_t 318 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t nMaxLen; uint32_t 319 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t inSize; uint32_t 320 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t routSizePrimIn; uint32_t 321 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t routSizePrimROut; uint32_t 335 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c const uint32_t* value32s; uint32_t 344 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t nCases; uint32_t 361 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t nMembers; uint32_t 383 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t uScalars; //no method index uint32_t 399 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c const uint32_t *iids; uint32_t 433 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c extern int adsp_mmap_fd_getinfo(int, uint32_t *); uint32_t 437 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method(int (*_pfn)(uint32_t, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t, uint32_t), uint32_t _sc, remote_arg* _pra) { uint32_t 439 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in0[1]; uint32_t 440 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in1[1]; uint32_t 441 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in2[1]; uint32_t 442 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in3[1]; uint32_t 443 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in4[1]; uint32_t 444 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in5[1]; uint32_t 445 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in6[1]; uint32_t 446 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in7[1]; uint32_t 447 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_t 465 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_1(int (*_pfn)(uint32_t), uint32_t _sc, remote_arg* _pra) { uint32_t 467 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in0[1]; uint32_t 468 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_t 479 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_2(int (*_pfn)(uint32_t*, uint32_t*), uint32_t _sc, remote_arg* _pra) { uint32_t 481 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout0[1]; uint32_t 482 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout1[1]; uint32_t 483 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primROut; uint32_t 497 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_3(int (*_pfn)(char*, uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) { uint32_t 500 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout0Len[1]; uint32_t 501 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout1[1]; uint32_t 502 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_t 504 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primROut; uint32_t 525 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_pack(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { uint32_t 533 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_pack_1(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) { uint32_t 541 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_unpack(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], void* _primIn, void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { uint32_t 557 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_unpack_1(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], void* _primIn, void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) { uint32_t 573 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_4(int (*_pfn)(uint32_t, uint32_t, void*, uint32_t, void*, uint32_t, void*, uint32_t), uint32_t _sc, remote_arg* _pra) { uint32_t 575 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in0[1]; uint32_t 576 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in1[1]; uint32_t 578 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in2Len[1]; uint32_t 580 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout3Len[1]; uint32_t 582 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in4Len[1]; uint32_t 583 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_t 649 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_5(int (*_pfn)(void), uint32_t _sc, remote_arg* _pra) { uint32_t 658 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_6(int (*_pfn)(uint32_t, char*, uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) { uint32_t 660 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in0[1]; uint32_t 662 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in1Len[1]; uint32_t 663 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout2[1]; uint32_t 664 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_t 666 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primROut; uint32_t 686 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c static __inline int _skel_method_7(int (*_pfn)(char*, uint32_t, uint32_t*), uint32_t _sc, remote_arg* _pra) { uint32_t 689 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _in0Len[1]; uint32_t 690 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t _rout1[1]; uint32_t 691 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primIn; uint32_t 693 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c uint32_t* _primROut; uint32_t 712 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c __QAIC_SKEL_EXPORT int __QAIC_SKEL(halide_hexagon_remote_skel_invoke)(uint32_t _sc, remote_arg* _pra) __QAIC_SKEL_ATTRIBUTE { uint32_t 285 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t iid;\ uint32_t 286 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t bNotNil;\ uint32_t 297 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t bFloating;\ uint32_t 298 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t bSigned;\ uint32_t 318 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t nMaxLen; uint32_t 319 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t inSize; uint32_t 320 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t routSizePrimIn; uint32_t 321 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t routSizePrimROut; uint32_t 335 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c const uint32_t* value32s; uint32_t 344 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t nCases; uint32_t 361 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t nMembers; uint32_t 383 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t uScalars; //no method index uint32_t 399 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c const uint32_t *iids; uint32_t 460 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c extern int adsp_pls_add_lookup(uint32_t type, uint32_t key, int size, int (*ctor)(void* ctx, void* data), void* ctx, void (*dtor)(void* ctx), void** ppo); uint32_t 462 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c extern int HAP_pls_add_lookup(uint32_t type, uint32_t key, int size, int (*ctor)(void* ctx, void* data), void* ctx, void (*dtor)(void* ctx), void** ppo); uint32_t 467 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c if(0 == adsp_pls_add_lookup((uint32_t)_halide_hexagon_remote_handle, 0, sizeof(*ph), _halide_hexagon_remote_pls_ctor, "halide_hexagon_remote", _halide_hexagon_remote_pls_dtor, (void**)&ph)) { uint32_t 472 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c if(0 == HAP_pls_add_lookup((uint32_t)_halide_hexagon_remote_handle, 0, sizeof(*ph), _halide_hexagon_remote_pls_ctor, "halide_hexagon_remote", _halide_hexagon_remote_pls_dtor, (void**)&ph)) { uint32_t 482 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _halide_hexagon_remote_atomic_CompareAndExchange(uint32_t * volatile puDest, uint32_t uExchange, uint32_t uCompare); uint32_t 486 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _halide_hexagon_remote_atomic_CompareAndExchange(uint32_t * volatile puDest, uint32_t uExchange, uint32_t uCompare) { uint32_t 487 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return (uint32_t)InterlockedCompareExchange((volatile LONG*)puDest, (LONG)uExchange, (LONG)uCompare); uint32_t 490 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _halide_hexagon_remote_atomic_CompareAndExchange(uint32_t * volatile puDest, uint32_t uExchange, uint32_t uCompare) { uint32_t 506 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c if(((remote_handle)-1 != handle) || ((remote_handle)-1 != (remote_handle)_halide_hexagon_remote_atomic_CompareAndExchange((uint32_t*)&handle, (uint32_t)tmp, (uint32_t)-1))) { uint32_t 515 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int remote_register_dma_handle(int, uint32_t); uint32_t 517 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c __QAIC_STUB_EXPORT int __QAIC_STUB(halide_hexagon_remote_skel_invoke)(uint32_t _sc, remote_arg* _pra) __QAIC_STUB_ATTRIBUTE { uint32_t 529 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method(remote_handle _handle, uint32_t _mid, char* _in0[1], uint32_t _in0Len[1], uint32_t _rout1[1]) { uint32_t 532 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[1]; uint32_t 533 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primROut[1]; uint32_t 551 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 0; uint32_t 552 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method(_halide_hexagon_remote_handle(), _mid, (char**)&code, (uint32_t*)&codeLen, (uint32_t*)module_ptr); uint32_t 554 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_1(remote_handle _handle, uint32_t _mid, uint32_t _in0[1], char* _in1[1], uint32_t _in1Len[1], uint32_t _rout2[1]) { uint32_t 557 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[2]; uint32_t 558 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primROut[1]; uint32_t 577 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 1; uint32_t 578 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_1(_halide_hexagon_remote_handle(), _mid, (uint32_t*)&module_ptr, (char**)&name, (uint32_t*)&nameLen, (uint32_t*)sym_ptr); uint32_t 580 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_2(remote_handle _handle, uint32_t _mid) { uint32_t 588 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 2; uint32_t 592 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 3; uint32_t 595 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_unpack(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { uint32_t 603 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_unpack_1(remote_arg* _praROutPost, remote_arg* _ppraROutPost[1], void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) { uint32_t 611 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_pack(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], void* _primIn, void* _primROut, char* _in0[1], uint32_t _in0Len[1]) { uint32_t 626 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_pack_1(_allocator* _al, remote_arg* _praIn, remote_arg* _ppraIn[1], remote_arg* _praROut, remote_arg* _ppraROut[1], void* _primIn, void* _primROut, char* _rout0[1], uint32_t _rout0Len[1]) { uint32_t 641 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline void _count(int _numIn[1], int _numROut[1], char* _in0[1], uint32_t _in0Len[1]) { uint32_t 645 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline void _count_1(int _numIn[1], int _numROut[1], char* _rout0[1], uint32_t _rout0Len[1]) { uint32_t 649 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_3(remote_handle _handle, uint32_t _mid, uint32_t _in0[1], uint32_t _in1[1], void* _in2[1], uint32_t _in2Len[1], void* _rout3[1], uint32_t _rout3Len[1], void* _in4[1], uint32_t _in4Len[1]) { uint32_t 658 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[5]; uint32_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]))); uint32_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]))); uint32_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]))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_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])))); uint32_t 731 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 4; uint32_t 732 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_3(_halide_hexagon_remote_handle(), _mid, (uint32_t*)&module_ptr, (uint32_t*)&symbol, (void**)&input_buffers, (uint32_t*)&input_buffersLen, (void**)&output_buffers, (uint32_t*)&output_buffersLen, (void**)&input_scalars, (uint32_t*)&input_scalarsLen); uint32_t 734 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_4(remote_handle _handle, uint32_t _mid, uint32_t _in0[1]) { uint32_t 736 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[1]; uint32_t 746 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 5; uint32_t 747 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_4(_halide_hexagon_remote_handle(), _mid, (uint32_t*)&module_ptr); uint32_t 749 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_5(remote_handle _handle, uint32_t _mid, char* _rout0[1], uint32_t _rout0Len[1], uint32_t _rout1[1]) { uint32_t 752 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[1]; uint32_t 753 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primROut[1]; uint32_t 773 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 6; uint32_t 774 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_5(_halide_hexagon_remote_handle(), _mid, (char**)&log, (uint32_t*)&logLen, (uint32_t*)read_size); uint32_t 776 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_6(remote_handle _handle, uint32_t _mid, uint32_t _rout0[1], uint32_t _rout1[1]) { uint32_t 779 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primROut[2]; uint32_t 791 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 7; uint32_t 792 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_6(_halide_hexagon_remote_handle(), _mid, (uint32_t*)func, (uint32_t*)threads); uint32_t 795 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 8; uint32_t 796 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_4(_halide_hexagon_remote_handle(), _mid, (uint32_t*)&mode); uint32_t 798 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c static __inline int _stub_method_7(remote_handle _handle, uint32_t _mid, uint32_t _in0[1], uint32_t _in1[1], uint32_t _in2[1], uint32_t _in3[1], uint32_t _in4[1], uint32_t _in5[1], uint32_t _in6[1], uint32_t _in7[1]) { uint32_t 800 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _primIn[8]; uint32_t 817 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c uint32_t _mid = 9; uint32_t 818 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c return _stub_method_7(_halide_hexagon_remote_handle(), _mid, (uint32_t*)&set_mips, (uint32_t*)&mipsPerThread, (uint32_t*)&mipsTotal, (uint32_t*)&set_bus_bw, (uint32_t*)&bwMegabytesPerSec, (uint32_t*)&busbwUsagePercentage, (uint32_t*)&set_latency, (uint32_t*)&latency); uint32_t 16 src/runtime/hexagon_remote/dlib.cpp typedef uint32_t elfaddr_t; uint32_t 25 src/runtime/hexagon_remote/dlib.cpp uint32_t e_version; uint32_t 29 src/runtime/hexagon_remote/dlib.cpp uint32_t e_flags; uint32_t 45 src/runtime/hexagon_remote/dlib.cpp uint32_t p_type; uint32_t 46 src/runtime/hexagon_remote/dlib.cpp uint32_t p_offset; uint32_t 49 src/runtime/hexagon_remote/dlib.cpp uint32_t p_filesz; uint32_t 50 src/runtime/hexagon_remote/dlib.cpp uint32_t p_memsz; uint32_t 51 src/runtime/hexagon_remote/dlib.cpp uint32_t p_flags; uint32_t 52 src/runtime/hexagon_remote/dlib.cpp uint32_t p_align; uint32_t 65 src/runtime/hexagon_remote/dlib.cpp uint32_t st_name; uint32_t 67 src/runtime/hexagon_remote/dlib.cpp uint32_t st_size; uint32_t 88 src/runtime/hexagon_remote/dlib.cpp uint32_t r_info; uint32_t 89 src/runtime/hexagon_remote/dlib.cpp uint32_t r_type() const {return r_info & 0xff;} uint32_t 90 src/runtime/hexagon_remote/dlib.cpp uint32_t r_sym() const {return r_info >> 8;} uint32_t 124 src/runtime/hexagon_remote/dlib.cpp uint32_t tag; uint32_t 131 src/runtime/hexagon_remote/dlib.cpp const uint32_t *table; uint32_t 147 src/runtime/hexagon_remote/dlib.cpp uint32_t bucket_count() const { return table[0]; } uint32_t 148 src/runtime/hexagon_remote/dlib.cpp uint32_t chain_count() const { return table[1]; } uint32_t 149 src/runtime/hexagon_remote/dlib.cpp const uint32_t *buckets() const { return &table[2]; } uint32_t 150 src/runtime/hexagon_remote/dlib.cpp const uint32_t *chains() const { return buckets() + bucket_count(); } uint32_t 152 src/runtime/hexagon_remote/dlib.cpp uint32_t lookup_chain(const char *name) { uint32_t 156 src/runtime/hexagon_remote/dlib.cpp uint32_t next_in_chain(uint32_t sym) { uint32_t 196 src/runtime/hexagon_remote/dlib.cpp uint32_t *fixup_addr = (uint32_t *)(base_vaddr + r.r_offset); uint32_t 224 src/runtime/hexagon_remote/dlib.cpp case R_HEX_COPY: *fixup_addr = (uint32_t)S; break; uint32_t 225 src/runtime/hexagon_remote/dlib.cpp case R_HEX_GLOB_DAT: *fixup_addr = (uint32_t)(S + A); break; uint32_t 226 src/runtime/hexagon_remote/dlib.cpp case R_HEX_JMP_SLOT: *fixup_addr = (uint32_t)(S + A); break; uint32_t 227 src/runtime/hexagon_remote/dlib.cpp case R_HEX_RELATIVE: *fixup_addr = (uint32_t)(B + A); break; uint32_t 250 src/runtime/hexagon_remote/dlib.cpp hash.table = (const uint32_t *)(base_vaddr + d.value); uint32_t 434 src/runtime/hexagon_remote/dlib.cpp uint32_t i = hash.lookup_chain(name); uint32_t 355 src/runtime/matlab.cpp case 32: *reinterpret_cast<uint32_t *>(scalar) = static_cast<uint32_t>(value); return halide_error_code_success; uint32_t 154 src/runtime/metal.cpp WEAK void set_input_buffer(mtl_compute_command_encoder *encoder, mtl_buffer *input_buffer, uint32_t index) { uint32_t 162 src/runtime/metal.cpp WEAK void set_threadgroup_memory_length(mtl_compute_command_encoder *encoder, uint32_t length, uint32_t index) { uint32_t 45 src/runtime/mini_cl.h typedef uint32_t cl_uint; uint32_t 23 src/runtime/old_buffer_t.cpp case 4: new_buf->type = halide_type_of<uint32_t>(); break; uint32_t 1586 src/runtime/opengl.cpp uint32_t value = *((uint32_t*)args[i]); uint32_t 4 src/runtime/osx_clock.cpp uint32_t numer; uint32_t 5 src/runtime/osx_clock.cpp uint32_t denom; uint32_t 66 src/runtime/printer.h Printer &operator<<(uint32_t arg) { uint32_t 45 src/runtime/runtime_internal.h typedef uint32_t uintptr_t; uint32_t 27 src/runtime/tracing.cpp uint32_t value_bytes = (uint32_t)(e->type.lanes * e->type.bytes()); uint32_t 28 src/runtime/tracing.cpp uint32_t header_bytes = (uint32_t)sizeof(halide_trace_packet_t); uint32_t 29 src/runtime/tracing.cpp uint32_t coords_bytes = e->dimensions * (uint32_t)sizeof(int32_t); uint32_t 30 src/runtime/tracing.cpp uint32_t name_bytes = strlen(e->func) + 1; uint32_t 31 src/runtime/tracing.cpp uint32_t total_size_without_padding = header_bytes + value_bytes + coords_bytes + name_bytes; uint32_t 32 src/runtime/tracing.cpp uint32_t total_size = (total_size_without_padding + 3) & ~3; uint32_t 33 src/runtime/tracing.cpp uint32_t padding_bytes = total_size - total_size_without_padding; uint32_t 56 src/runtime/tracing.cpp uint32_t zero = 0; uint32_t 131 src/runtime/tracing.cpp ss << ((uint32_t *)(e->value))[i]; uint32_t 13 src/runtime/windows_tempfile.cpp extern uint32_t WIN32API GetTempPathA(uint32_t, char *); uint32_t 14 src/runtime/windows_tempfile.cpp extern uint32_t WIN32API GetTempFileNameA(const char *, const char *, uint32_t, char *); uint32_t 24 src/runtime/windows_tempfile.cpp uint32_t ret = GetTempPathA(MAX_PATH, tmp_dir_path); uint32_t 51 src/runtime/x86_cpu_features.cpp const uint32_t avx2 = 1U << 5; uint32_t 52 src/runtime/x86_cpu_features.cpp const uint32_t avx512f = 1U << 16; uint32_t 53 src/runtime/x86_cpu_features.cpp const uint32_t avx512dq = 1U << 17; uint32_t 54 src/runtime/x86_cpu_features.cpp const uint32_t avx512pf = 1U << 26; uint32_t 55 src/runtime/x86_cpu_features.cpp const uint32_t avx512er = 1U << 27; uint32_t 56 src/runtime/x86_cpu_features.cpp const uint32_t avx512cd = 1U << 28; uint32_t 57 src/runtime/x86_cpu_features.cpp const uint32_t avx512bw = 1U << 30; uint32_t 58 src/runtime/x86_cpu_features.cpp const uint32_t avx512vl = 1U << 31; uint32_t 59 src/runtime/x86_cpu_features.cpp const uint32_t avx512ifma = 1U << 21; uint32_t 60 src/runtime/x86_cpu_features.cpp const uint32_t avx512 = avx512f | avx512cd; uint32_t 61 src/runtime/x86_cpu_features.cpp const uint32_t avx512_knl = avx512 | avx512pf | avx512er; uint32_t 62 src/runtime/x86_cpu_features.cpp const uint32_t avx512_skylake = avx512 | avx512vl | avx512bw | avx512dq; uint32_t 63 src/runtime/x86_cpu_features.cpp const uint32_t avx512_cannonlake = avx512_skylake | avx512ifma; // Assume ifma => vbmi uint32_t 137 test/correctness/bit_counting.cpp if (test_bit_counting<uint32_t>(target) != 0) return -1; uint32_t 7 test/correctness/bitwise_ops.cpp Buffer<uint32_t> input(256); uint32_t 20 test/correctness/bitwise_ops.cpp uint32_t output = Halide::Internal::reinterpret_bits<uint32_t>(y); uint32_t 30 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im2 = f2.realize(128); uint32_t 32 test/correctness/bitwise_ops.cpp uint32_t correct = input(x) ^ input(x+1); uint32_t 43 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im3 = f3.realize(128); uint32_t 45 test/correctness/bitwise_ops.cpp uint32_t correct = input(x) & input(x+1); uint32_t 56 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im4 = f4.realize(128); uint32_t 58 test/correctness/bitwise_ops.cpp uint32_t correct = input(x) | input(x+1); uint32_t 69 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im5 = f5.realize(128); uint32_t 71 test/correctness/bitwise_ops.cpp uint32_t correct = ~input(x); uint32_t 82 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im6 = f6.realize(128); uint32_t 84 test/correctness/bitwise_ops.cpp uint32_t correct = input(x) << (input(x+1) & 0xf); uint32_t 95 test/correctness/bitwise_ops.cpp Buffer<uint32_t> im7 = f7.realize(128); uint32_t 97 test/correctness/bitwise_ops.cpp uint32_t correct = input(x) >> (input(x+1) & 0xf); uint32_t 12 test/correctness/code_explosion.cpp funcs.push_back(lambda(x, cast<uint32_t>(x))); uint32_t 13 test/correctness/code_explosion.cpp funcs.push_back(lambda(x, cast<uint32_t>(x))); uint32_t 26 test/correctness/code_explosion.cpp e[0] = cast<uint32_t>(x); uint32_t 27 test/correctness/code_explosion.cpp e[1] = cast<uint32_t>(x); uint32_t 77 test/correctness/constant_expr.cpp test_expr_range<uint32_t>(); uint32_t 47 test/correctness/constant_type.cpp ok = ok && test_type<uint32_t>(); uint32_t 29 test/correctness/convolution_multiple_kernels.cpp box2(x, y) = cast<uint32_t>(2); uint32_t 7 test/correctness/erf.cpp uint32_t a = Halide::Internal::reinterpret_bits<uint32_t>(fa); uint32_t 8 test/correctness/erf.cpp uint32_t b = Halide::Internal::reinterpret_bits<uint32_t>(fb); uint32_t 9 test/correctness/erf.cpp uint32_t a_exp = a >> 23; uint32_t 10 test/correctness/erf.cpp uint32_t b_exp = b >> 23; uint32_t 12 test/correctness/erf.cpp uint32_t diff = a > b ? a - b : b - a; uint32_t 33 test/correctness/fuse.cpp int err = evaluate_may_gpu<uint32_t>(error()); uint32_t 73 test/correctness/gpu_mixed_shared_mem_types.cpp result = check_result<uint32_t>(output, n_types - 2, offset); uint32_t 10 test/correctness/gpu_reuse_shared_memory.cpp f2(x, y, z) = cast<uint32_t>(f1(x+1, y, z) + f1(x, y+1, z)); uint32_t 13 test/correctness/gpu_reuse_shared_memory.cpp f5(x, y, z) = cast<uint32_t>(f4(x+1, y, z) + f4(x, y+1, z)); uint32_t 33 test/correctness/image_io.cpp uint32_t diff = evaluate<uint32_t>(maximum(abs(cast<int>(buf(args)) - cast<int>(reloaded(args))))); uint32_t 35 test/correctness/image_io.cpp uint32_t max_diff = 0; uint32_t 7 test/correctness/inverse.cpp uint32_t a = Halide::Internal::reinterpret_bits<uint32_t>(fa); uint32_t 8 test/correctness/inverse.cpp uint32_t b = Halide::Internal::reinterpret_bits<uint32_t>(fb); uint32_t 9 test/correctness/inverse.cpp uint32_t a_exp = a >> 23; uint32_t 10 test/correctness/inverse.cpp uint32_t b_exp = b >> 23; uint32_t 12 test/correctness/inverse.cpp uint32_t diff = a > b ? a - b : b - a; uint32_t 165 test/correctness/lerp.cpp check_range<uint16_t, uint32_t>(0, 1, 0, 1, uint32_t 169 test/correctness/lerp.cpp check_range<uint32_t, uint8_t>(0, 1, 0, 1, uint32_t 173 test/correctness/lerp.cpp check_range<uint32_t, uint16_t>(0, 1, 0, 1, uint32_t 191 test/correctness/lerp.cpp check_range<int32_t, uint32_t>(std::numeric_limits<int32_t>::min(), std::numeric_limits<int32_t>::max(), 0, 1, uint32_t 216 test/correctness/lerp.cpp check_range<float, uint32_t>(0, 100, -5, .1f, uint32_t 223 test/correctness/lerp.cpp lerp_constants() = lerp(0, cast<uint32_t>(1023), .5f); uint32_t 224 test/correctness/lerp.cpp Buffer<uint32_t> result = lerp_constants.realize(); uint32_t 226 test/correctness/lerp.cpp uint32_t expected = evaluate<uint32_t>(cast<uint32_t>(lerp(0, cast<uint16_t>(1023), .5f))); uint32_t 171 test/correctness/logical.cpp out(x, y) = {cast<uint32_t>(cpu(x, y)), cast<uint32_t>(gpu(x, y))}; uint32_t 187 test/correctness/logical.cpp Buffer<uint32_t> cpu_output = r[0]; uint32_t 188 test/correctness/logical.cpp Buffer<uint32_t> gpu_output = r[1]; uint32_t 45 test/correctness/math.cpp uint32_t absd(int32_t a, int32_t b) { return a < b ? b - a : a - b; } uint32_t 48 test/correctness/math.cpp uint32_t absd(uint32_t a, uint32_t b) { return a < b ? b - a : a - b; } uint32_t 118 test/correctness/math.cpp fun_1(uint32_t, uint32_t, name, name) uint32_t 150 test/correctness/math.cpp fun_1(uint32_t, int32_t, abs, abs) uint32_t 155 test/correctness/math.cpp fun_2(uint32_t, int32_t, absd, absd) uint32_t 158 test/correctness/math.cpp fun_2(uint32_t, uint32_t, absd, absd) uint32_t 250 test/correctness/math.cpp const uint32_t uint32_min = std::numeric_limits<uint32_t>::min(); uint32_t 253 test/correctness/math.cpp const uint32_t uint32_max = std::numeric_limits<uint32_t>::max(); uint32_t 266 test/correctness/math.cpp call_2(uint32_t, absd, 256, uint32_min, uint32_max, uint32_min, uint32_max); uint32_t 47 test/correctness/mod.cpp test<uint32_t>() && uint32_t 510 test/correctness/mul_div_mod.cpp success &= mul<uint32_t, uint32_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint32_t 517 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, uint16_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint32_t 524 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, uint32_t, uint32_t, uint64_t>(vector_width, scheduling, target); uint32_t 536 test/correctness/mul_div_mod.cpp success &= div_mod<uint32_t, uint64_t>(vector_width, scheduling, target); uint32_t 28 test/correctness/multi_way_select.cpp uint32_t err = evaluate_may_gpu<uint32_t>(sum(abs(g(r) - f(r)))); uint32_t 65 test/correctness/named_updates.cpp uint32_t error = evaluate<uint32_t>( uint32_t 33 test/correctness/print.cpp f(x) = print(x * x, "the answer is", 42.0f, "unsigned", cast<uint32_t>(145)); uint32_t 610 test/correctness/reduction_non_rectangular.cpp inverse(x) = {-0.25f * reinterpret<float>(~(reinterpret<uint32_t>(cast<float>(x+1)))), 0}; uint32_t 230 test/correctness/saturating_casts.cpp test_saturating<source_t, uint32_t>(); uint32_t 253 test/correctness/saturating_casts.cpp test_concise<source_t, uint32_t>(u32, false); uint32_t 255 test/correctness/saturating_casts.cpp test_concise<source_t, uint32_t>(u32_sat, true); uint32_t 275 test/correctness/saturating_casts.cpp test_one_source<uint32_t>(); uint32_t 45 test/correctness/specialize_to_gpu.cpp uint32_t err = evaluate<uint32_t>(sum(abs(out(r) - reference(r)))); uint32_t 125 test/correctness/target.cpp if (t1.natural_vector_size<uint32_t>() != 4) { uint32_t 145 test/correctness/target.cpp if (t1.natural_vector_size<uint32_t>() != 4) { uint32_t 164 test/correctness/target.cpp if (t1.natural_vector_size<uint32_t>() != 8) { uint32_t 183 test/correctness/target.cpp if (t1.natural_vector_size<uint32_t>() != 4) { uint32_t 18 test/correctness/vector_cast.cpp DECL_SOT(uint32_t); uint32_t 122 test/correctness/vector_cast.cpp success = success && test<A, uint32_t>(vec_width, target); uint32_t 153 test/correctness/vector_cast.cpp success = success && test_all<uint32_t>(vec_width, target); uint32_t 33 test/correctness/vector_math.cpp DECL_SOT(uint32_t); uint32_t 114 test/correctness/vector_math.cpp typedef uint32_t type; uint32_t 635 test/correctness/vector_math.cpp futures.push_back(pool.async(test<uint32_t>, 4)); uint32_t 16 test/error/too_many_args.cpp Buffer<uint32_t> result = bad_call.realize(256, 256); uint32_t 12 test/generator/can_use_target_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xdeadbeef); uint32_t 64 test/generator/cxx_mangling_aottest.cpp int32_t, uint32_t, uint32_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) { uint32_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) { uint32_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) { uint32_t 32 test/generator/cxx_mangling_define_extern_generator.cpp args.push_back(cast<uint32_t>(6)); uint32_t 41 test/generator/cxx_mangling_generator.cpp Param<uint32_t> offset_u32{"offset_u32", 0}; uint32_t 14 test/generator/float16_t_aottest.cpp float float_from_bits(uint32_t bits) { uint32_t 17 test/generator/float16_t_aottest.cpp uint32_t asUInt; uint32_t 101 test/generator/float16_t_aottest.cpp uint32_t asUInt; uint32_t 112 test/generator/float16_t_aottest.cpp uint32_t asUInt; uint32_t 135 test/generator/image_from_array_aottest.cpp test<uint32_t>(); uint32_t 224 test/generator/metadata_tester_aottest.cpp const halide_scalar_value_t *make_scalar(uint32_t v) { uint32_t 392 test/generator/metadata_tester_aottest.cpp make_scalar<uint32_t>(320), uint32_t 393 test/generator/metadata_tester_aottest.cpp make_scalar<uint32_t>(32), uint32_t 394 test/generator/metadata_tester_aottest.cpp make_scalar<uint32_t>(2550), uint32_t 22 test/generator/metadata_tester_generator.cpp Input<uint32_t> u32{ "u32", 320, 32, 2550 }; uint32_t 57 test/generator/multitarget_aottest.cpp Buffer<uint32_t> output(W, H); uint32_t 69 test/generator/multitarget_aottest.cpp const uint32_t expected = use_debug_feature() ? 0xdeadbeef : 0xf00dcafe; uint32_t 70 test/generator/multitarget_aottest.cpp const uint32_t actual = output(x, y); uint32_t 11 test/generator/multitarget_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xdeadbeef); uint32_t 13 test/generator/multitarget_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xf00dcafe); uint32_t 36 test/performance/const_division.cpp uint32_t bits = rand() ^ (rand() << 16); uint32_t 114 test/performance/const_division.cpp success = success && test<uint32_t>(1, i == 0); uint32_t 121 test/performance/const_division.cpp success = success && test<uint32_t>(8, i == 0); uint32_t 19 test/performance/vectorize.cpp DECL_SOT(uint32_t); uint32_t 105 test/performance/vectorize.cpp ok = ok && test<uint32_t>(4); uint32_t 49 tools/halide_image_io.h inline void convert(uint32_t in, uint8_t &out) {out = in >> 24;} uint32_t 59 tools/halide_image_io.h inline void convert(uint32_t in, uint16_t &out) {out = in >> 16;} uint32_t 67 tools/halide_image_io.h inline void convert(uint8_t in, uint32_t &out) {out = in << 24;} uint32_t 75 tools/halide_image_io.h inline void convert(uint16_t in, uint32_t &out) {out = in << 16;} uint32_t 128 tutorial/lesson_11_cross_compilation.cpp uint32_t arm_32_ios_magic[] = {0xfeedface, // Mach-o magic bytes uint32_t 101 tutorial/lesson_14_types.cpp Expr u32 = cast<uint32_t>(x); uint32_t 69 util/HalideTraceViz.cpp return (T)(((const uint32_t *)value())[idx]); uint32_t 94 util/HalideTraceViz.cpp uint32_t header_size = (uint32_t)sizeof(halide_trace_packet_t); uint32_t 98 util/HalideTraceViz.cpp uint32_t payload_size = size - header_size; uint32_t 99 util/HalideTraceViz.cpp if (payload_size > (uint32_t)sizeof(payload)) { uint32_t 162 util/HalideTraceViz.cpp uint32_t uninitialized_memory_color = 0xff000000; uint32_t 279 util/HalideTraceViz.cpp ((uint32_t *)dst)[0] = ((uint32_t *)a)[0]; uint32_t 281 util/HalideTraceViz.cpp ((uint32_t *)dst)[0] = ((uint32_t *)b)[0]; uint32_t 292 util/HalideTraceViz.cpp void draw_text(const char *text, int x, int y, uint32_t color, uint32_t *dst, int dst_width, int dst_height) { uint32_t 441 util/HalideTraceViz.cpp void fill_realization(uint32_t *image, int image_width, uint32_t color, const FuncInfo &fi, uint32_t 610 util/HalideTraceViz.cpp uint32_t *image = new uint32_t[frame_width * frame_height]; uint32_t 613 util/HalideTraceViz.cpp uint32_t *anim = new uint32_t[frame_width * frame_height]; uint32_t 616 util/HalideTraceViz.cpp uint32_t *anim_decay = new uint32_t[frame_width * frame_height]; uint32_t 619 util/HalideTraceViz.cpp uint32_t *text = new uint32_t[frame_width * frame_height]; uint32_t 622 util/HalideTraceViz.cpp uint32_t *blend = new uint32_t[frame_width * frame_height]; uint32_t 630 util/HalideTraceViz.cpp map<uint32_t, PipelineInfo> pipeline_info; uint32_t 673 util/HalideTraceViz.cpp const uint32_t inv_d1 = (1 << 24) / decay_factor[1]; uint32_t 675 util/HalideTraceViz.cpp uint32_t color = anim_decay[i]; uint32_t 676 util/HalideTraceViz.cpp uint32_t rgb = color & 0x00ffffff; uint32_t 677 util/HalideTraceViz.cpp uint32_t alpha = (color >> 24); uint32_t 685 util/HalideTraceViz.cpp const uint32_t inv_d0 = (1 << 24) / decay_factor[0]; uint32_t 687 util/HalideTraceViz.cpp uint32_t color = anim[i]; uint32_t 688 util/HalideTraceViz.cpp uint32_t rgb = color & 0x00ffffff; uint32_t 689 util/HalideTraceViz.cpp uint32_t alpha = (color >> 24); uint32_t 759 util/HalideTraceViz.cpp uint32_t color = ((1 + frames_since_first_draw) * 255) / label.n; uint32_t 797 util/HalideTraceViz.cpp uint32_t color = p.event == halide_trace_load ? 0xffffdd44 : 0xff44ddff; uint32_t 799 util/HalideTraceViz.cpp uint32_t image_color; uint32_t 827 util/HalideTraceViz.cpp uint32_t channel = p.get_coord(fi.config.color_dim * p.type.lanes + lane); uint32_t 828 util/HalideTraceViz.cpp uint32_t mask = ~(255 << (channel * 8));