int32_t 9 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t lumaWidth, int32_t lumaHeight, int32_t 10 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t lumaElementStrideBytes, int32_t lumaRowStrideBytes, int32_t 12 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t chromaUWidth, int32_t chromaUHeight, int32_t 13 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t chromaUElementStrideBytes, int32_t chromaURowStrideBytes, int32_t 15 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t chromaVWidth, int32_t chromaVHeight, int32_t 16 apps/HelloAndroidCamera2/jni/YuvBufferT.cpp int32_t chromaVElementStrideBytes, int32_t chromaVRowStrideBytes) { int32_t 41 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t lumaWidth, int32_t lumaHeight, int32_t 42 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t lumaElementStrideBytes, int32_t lumaRowStrideBytes, int32_t 44 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t chromaUWidth, int32_t chromaUHeight, int32_t 45 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t chromaUElementStrideBytes, int32_t chromaURowStrideBytes, int32_t 47 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t chromaVWidth, int32_t chromaVHeight, int32_t 48 apps/HelloAndroidCamera2/jni/YuvBufferT.h int32_t chromaVElementStrideBytes, int32_t chromaVRowStrideBytes); int32_t 78 apps/c_backend/pipeline_cpp_generator.cpp add_all_the_things += an_extern_c_func(cast<int32_t>(input(x, y)), cast<float>(x + y)); int32_t 223 apps/camera_pipe/camera_pipe_generator.cpp Expr ir = cast<int32_t>(input(x, y, 0)); int32_t 224 apps/camera_pipe/camera_pipe_generator.cpp Expr ig = cast<int32_t>(input(x, y, 1)); int32_t 225 apps/camera_pipe/camera_pipe_generator.cpp Expr ib = cast<int32_t>(input(x, y, 2)); int32_t 17 apps/fft/fft_aot_test.cpp const int32_t kSize = 16; int32_t 22 apps/fft/fft_aot_test.cpp Buffer<float, 3> real_buffer(int32_t y_size = kSize) { int32_t 26 apps/fft/fft_aot_test.cpp Buffer<float, 3> complex_buffer(int32_t y_size = kSize) { int32_t 45 apps/fft/fft_generator.cpp GeneratorParam<int32_t> vector_width{"vector_width", 0}; int32_t 66 apps/fft/fft_generator.cpp GeneratorParam<int32_t> size0{"size0", 1}; int32_t 68 apps/fft/fft_generator.cpp GeneratorParam<int32_t> size1{"size1", 0}; int32_t 474 apps/hexagon_benchmarks/process.h int32_t sum = 0; int32_t 68 apps/openglcompute/jni/oglc_two_kernels_run.cpp int32_t output_value = output(i, j, k); int32_t 69 apps/openglcompute/jni/oglc_two_kernels_run.cpp int32_t input_value = input(i, j, k); int32_t 82 apps/simd_op_check/driver.cpp make_buffer<int32_t>(W, H), int32_t 199 python_bindings/numpy/dtype.cpp array_scalar_converter<boost::int32_t>::declare(); int32_t 180 python_bindings/python/BoundaryConditions.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 197 python_bindings/python/BoundaryConditions.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 214 python_bindings/python/BoundaryConditions.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 232 python_bindings/python/BoundaryConditions.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 251 python_bindings/python/BoundaryConditions.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 312 python_bindings/python/Func.cpp .def("realize", &func_realize_into<h::Buffer<int32_t>>, int32_t 315 python_bindings/python/Func.cpp .def("realize", &func_realize_into<h::Buffer<int32_t>, h::Target>, int32_t 432 python_bindings/python/Image.cpp p::manage_new_object::apply<h::Buffer<int32_t> *>::type converter; int32_t 433 python_bindings/python/Image.cpp obj = converter(new h::Buffer<int32_t>(im)); int32_t 453 python_bindings/python/Image.cpp p::extract<h::Buffer<int32_t>> buffer_extract_int32(obj); int32_t 487 python_bindings/python/Image.cpp if (t == h::Int(32)) return bn::dtype::get_builtin<int32_t>(); int32_t 500 python_bindings/python/Image.cpp if (t == bn::dtype::get_builtin<int32_t>()) return h::Int(32); int32_t 530 python_bindings/python/Image.cpp std::vector<int32_t> extent(im.dimensions()), stride(im.dimensions()); int32_t 564 python_bindings/python/Image.cpp if (t == h::Int(32)) return create_buffer_object<int32_t>(args...); int32_t 607 python_bindings/python/Image.cpp defineBuffer_impl<int32_t>("_int32", h::Int(32)); int32_t 120 python_bindings/python/Param.cpp .def("set", &image_param_set<int32_t>, p::args("self", "im"), int32_t 389 python_bindings/python/Param.cpp add_operators_with<pc_t, Param<int32_t>>(param_class); int32_t 494 python_bindings/python/Param.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 566 python_bindings/python/Param.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 573 python_bindings/python/Param.cpp boost::int8_t, boost::int16_t, boost::int32_t, int32_t 603 python_bindings/python/Param.cpp defineParam_impl<int32_t>("_int32", h::Int(32)); int32_t 27 python_bindings/tests/the_sort_function.c int32_t extent[4]; int32_t 36 python_bindings/tests/the_sort_function.c int32_t stride[4]; int32_t 41 python_bindings/tests/the_sort_function.c int32_t min[4]; int32_t 45 python_bindings/tests/the_sort_function.c int32_t elem_size; int32_t 65 python_bindings/tests/the_sort_function.c int32_t the_sort_func(struct buffer_t *data) int32_t 1508 src/Bounds.cpp check(scope, cast<int32_t>(abs(cast<int16_t>(x/y))), 0, 32768); int32_t 1511 src/Bounds.cpp check(scope, cast<int32_t>(abs(cast<float>(x))), 0, 10); int32_t 1547 src/Bounds.cpp Buffer<int32_t> in(10); int32_t 369 src/CPlusPlusMangle.cpp std::map<std::string, int32_t> prev_seen; int32_t 378 src/CPlusPlusMangle.cpp int32_t to_encode = place.first->second - 1; int32_t 1300 src/CodeGen_C.cpp int32_t constant_size; int32_t 1318 src/CodeGen_C.cpp size_id = print_expr(Expr(static_cast<int32_t>(constant_size))); int32_t 1362 src/CodeGen_C.cpp Expr(static_cast<int32_t>(0))); int32_t 369 src/CodeGen_Metal_Dev.cpp int32_t size = op->constant_allocation_size(); int32_t 404 src/CodeGen_OpenCL_Dev.cpp int32_t size = op->constant_allocation_size(); int32_t 765 src/CodeGen_OpenGL_Dev.cpp int32_t size = op->constant_allocation_size(); int32_t 201 src/CodeGen_PTX_Dev.cpp int32_t size = alloc->constant_allocation_size(); int32_t 87 src/CodeGen_Posix.cpp int32_t constant_bytes = Allocate::constant_allocation_size(extents, name); int32_t 81 src/Elf.cpp typedef int32_t addr_off_t; int32_t 881 src/Elf.cpp auto make_dyn = [](int32_t tag, addr_t val = 0) { int32_t 276 src/Expr.h EXPORT Expr(int32_t x) : IRHandle(Internal::IntImm::make(Int(32), x)) {} int32_t 1942 src/Func.cpp min = cast<int32_t>(min); int32_t 1944 src/Func.cpp extent = cast<int32_t>(extent); int32_t 1974 src/Func.cpp modulus = cast<int32_t>(modulus); int32_t 1975 src/Func.cpp remainder = cast<int32_t>(remainder); int32_t 2731 src/Func.cpp Realization Func::realize(std::vector<int32_t> sizes, const Target &target) { int32_t 569 src/Func.h EXPORT Realization realize(std::vector<int32_t> sizes, const Target &target = Target()); int32_t 346 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(int32_t) int32_t 430 src/Generator.h HALIDE_GENERATOR_PARAM_TYPED_SETTER(int32_t) int32_t 967 src/Generator.h Realization realize(std::vector<int32_t> sizes) { int32_t 2301 src/Generator.h Realization realize(std::vector<int32_t> sizes) { int32_t 2831 src/Generator.h Realization realize(std::vector<int32_t> sizes) { int32_t 311 src/HexagonOffload.cpp const Symbol *sym, uint32_t sym_offset, int32_t addend, int32_t 400 src/IR.cpp int32_t Allocate::constant_allocation_size(const std::vector<Expr> &extents, const std::string &name) { int32_t 428 src/IR.cpp return static_cast<int32_t>(result); int32_t 431 src/IR.cpp int32_t Allocate::constant_allocation_size() const { int32_t 368 src/IR.h EXPORT static int32_t constant_allocation_size(const std::vector<Expr> &extents, const std::string &name); int32_t 369 src/IR.h EXPORT int32_t constant_allocation_size() const; int32_t 84 src/IROperator.h inline Expr make_const(Type t, int32_t val) {return make_const(t, (int64_t)val);} int32_t 1692 src/IROperator.h return cast<int32_t>(random_uint(seed)); int32_t 28 src/Introspection.cpp extern "C" void _NSGetExecutablePath(char *, int32_t *); int32_t 29 src/Introspection.cpp void get_program_name(char *name, int32_t size) { int32_t 35 src/Introspection.cpp void get_program_name(char *name, int32_t size) { int32_t 560 src/JITModule.cpp int32_t trace_handler(void *context, const halide_trace_event_t *e) { int32_t 590 src/JITModule.cpp void adjust_module_ref_count(void *arg, int32_t count) { int32_t 761 src/JITModule.cpp *(void (**)(void *arg, int32_t count))fun_addr = &adjust_module_ref_count; int32_t 132 src/JITModule.h int32_t (*custom_trace)(void *, const halide_trace_event_t *){nullptr}; int32_t 118 src/Lerp.cpp cast(computation_type, (int32_t)scaling_factor); int32_t 122 src/Lerp.cpp weight / cast(weight.type(), (int32_t)scaling_factor)); int32_t 135 src/Lerp.cpp int32_t bits = computation_type.bits(); int32_t 153 src/Memoization.cpp int32_t max_alignment = 0; int32_t 195 src/Memoization.cpp key_size_expr = (int32_t)size_so_far; int32_t 204 src/Memoization.cpp Expr key_size() { return cast<int32_t>(key_size_expr); }; int32_t 263 src/Memoization.cpp int32_t tuple_count, std::string storage_base_name) { int32_t 273 src/Memoization.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 284 src/Memoization.cpp int32_t tuple_count, std::string storage_base_name) { int32_t 294 src/Memoization.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 162 src/Parameter.cpp case 32: return Expr(get_scalar<int32_t>()); int32_t 506 src/Pipeline.cpp Realization Pipeline::realize(vector<int32_t> sizes, int32_t 542 src/Pipeline.cpp vector<int32_t> v = {x_size}; int32_t 547 src/Pipeline.cpp return realize(vector<int32_t>(), target); int32_t 345 src/Pipeline.h EXPORT Realization realize(std::vector<int32_t> sizes, const Target &target = Target()); int32_t 82 src/Profiling.cpp int32_t constant_size = Allocate::constant_allocation_size(extents, name); int32_t 136 src/RDom.cpp rv.min = cast<int32_t>(ranges[i].first); int32_t 137 src/RDom.cpp rv.extent = cast<int32_t>(ranges[i].second); int32_t 106 src/Random.cpp expr = cast<int32_t>(random_int(args)); int32_t 57 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(int32_t) int32_t 208 src/ScheduleParam.h HALIDE_SCHEDULE_PARAM_TYPED_SETTER(int32_t) int32_t 6180 src/Simplify.cpp const int32_t values[] = { int32_t 6181 src/Simplify.cpp int32_t(0x80000000), int32_t 6191 src/Simplify.cpp for (int32_t i1 : values) { int32_t 6194 src/Simplify.cpp for (int32_t i2 : values) { int32_t 6286 src/Simplify.cpp check(((x * (int32_t)0x80000000) + (y + z * (int32_t)0x80000000)), int32_t 6287 src/Simplify.cpp ((x * (int32_t)0x80000000) + (y + z * (int32_t)0x80000000))); int32_t 1542 src/Solve.cpp Expr lhs = pow(cast<int32_t>(a16), 2) + pow(cast<int32_t>(b16), 2); int32_t 25 src/Tracing.cpp Expr coords = Call::make(type_of<int32_t *>(), Call::make_struct, int32_t 142 src/Type.h HALIDE_DECLARE_EXTERN_SIMPLE_TYPE(int32_t); int32_t 220 src/runtime/HalideRuntime.h extern int32_t halide_debug_to_file(void *user_context, const char *filename, int32_t 221 src/runtime/HalideRuntime.h int32_t type_code, int32_t 329 src/runtime/HalideRuntime.h int32_t *coordinates; int32_t 340 src/runtime/HalideRuntime.h int32_t parent_id; int32_t 344 src/runtime/HalideRuntime.h int32_t value_index; int32_t 347 src/runtime/HalideRuntime.h int32_t dimensions; int32_t 386 src/runtime/HalideRuntime.h extern int32_t halide_trace(void *user_context, const struct halide_trace_event_t *event); int32_t 387 src/runtime/HalideRuntime.h typedef int32_t (*halide_trace_t)(void *user_context, const struct halide_trace_event_t *); int32_t 399 src/runtime/HalideRuntime.h int32_t id; int32_t 405 src/runtime/HalideRuntime.h int32_t parent_id; int32_t 406 src/runtime/HalideRuntime.h int32_t value_index; int32_t 407 src/runtime/HalideRuntime.h int32_t dimensions; int32_t 578 src/runtime/HalideRuntime.h extern int halide_memoization_cache_lookup(void *user_context, const uint8_t *cache_key, int32_t size, int32_t 580 src/runtime/HalideRuntime.h int32_t tuple_count, struct halide_buffer_t **tuple_buffers); int32_t 596 src/runtime/HalideRuntime.h extern int halide_memoization_cache_store(void *user_context, const uint8_t *cache_key, int32_t size, int32_t 598 src/runtime/HalideRuntime.h int32_t tuple_count, int32_t 962 src/runtime/HalideRuntime.h int32_t min, extent, stride; int32_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) : int32_t 1016 src/runtime/HalideRuntime.h int32_t dimensions; int32_t 1131 src/runtime/HalideRuntime.h int32_t extent[4]; int32_t 1132 src/runtime/HalideRuntime.h int32_t stride[4]; int32_t 1133 src/runtime/HalideRuntime.h int32_t min[4]; int32_t 1134 src/runtime/HalideRuntime.h int32_t elem_size; int32_t 1173 src/runtime/HalideRuntime.h int32_t i32; int32_t 1208 src/runtime/HalideRuntime.h int32_t kind; // actually halide_argument_kind_t int32_t 1209 src/runtime/HalideRuntime.h int32_t dimensions; // always zero for scalar arguments int32_t 1221 src/runtime/HalideRuntime.h int32_t version; int32_t 1224 src/runtime/HalideRuntime.h int32_t num_arguments; int32_t 1462 src/runtime/HalideRuntime.h HALIDE_ALWAYS_INLINE halide_type_t halide_type_of<int32_t>() { int32_t 9 src/runtime/android_opengl_context.cpp typedef int32_t EGLint; int32_t 36 src/runtime/cache.cpp WEAK void debug_print_key(void *user_context, const char *msg, const uint8_t *cache_key, int32_t key_size) { int32_t 94 src/runtime/cache.cpp int32_t dimensions; int32_t 102 src/runtime/cache.cpp int32_t tuples, halide_buffer_t **tuple_buffers); int32_t 104 src/runtime/cache.cpp halide_buffer_t &buffer(int32_t i); int32_t 119 src/runtime/cache.cpp int32_t tuples, halide_buffer_t **tuple_buffers) { int32_t 329 src/runtime/cache.cpp WEAK int halide_memoization_cache_lookup(void *user_context, const uint8_t *cache_key, int32_t size, int32_t 330 src/runtime/cache.cpp halide_buffer_t *computed_bounds, int32_t tuple_count, halide_buffer_t **tuple_buffers) { int32_t 342 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 358 src/runtime/cache.cpp for (int32_t i = 0; all_bounds_equal && i < tuple_count; i++) { int32_t 382 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 395 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 401 src/runtime/cache.cpp for (int32_t j = i; j > 0; j--) { int32_t 420 src/runtime/cache.cpp WEAK int halide_memoization_cache_store(void *user_context, const uint8_t *cache_key, int32_t size, int32_t 422 src/runtime/cache.cpp int32_t tuple_count, halide_buffer_t **tuple_buffers) { int32_t 437 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 454 src/runtime/cache.cpp for (int32_t i = 0; all_bounds_equal && i < tuple_count; i++) { int32_t 466 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 478 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 496 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 519 src/runtime/cache.cpp for (int32_t i = 0; i < tuple_count; i++) { int32_t 278 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t nativeSize; /*in the simple case its the same as wire size and alignment*/\ int32_t 290 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t nItems;\ int32_t 294 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t nMaxLen;\ int32_t 303 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t stringMaxLen;\ int32_t 347 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t inSize; int32_t 348 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t routSizePrimIn; int32_t 349 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t routSizePrimROut; int32_t 363 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t inSize; int32_t 364 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t routSizePrimIn; int32_t 365 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t routSizePrimROut; int32_t 384 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t primInSize; int32_t 385 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_skel.c int32_t primROutSize; int32_t 278 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t nativeSize; /*in the simple case its the same as wire size and alignment*/\ int32_t 290 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t nItems;\ int32_t 294 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t nMaxLen;\ int32_t 303 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t stringMaxLen;\ int32_t 347 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t inSize; int32_t 348 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t routSizePrimIn; int32_t 349 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t routSizePrimROut; int32_t 363 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t inSize; int32_t 364 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t routSizePrimIn; int32_t 365 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t routSizePrimROut; int32_t 384 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t primInSize; int32_t 385 src/runtime/hexagon_remote/bin/src/halide_hexagon_remote_stub.c int32_t primROutSize; int32_t 91 src/runtime/hexagon_remote/dlib.cpp int32_t r_addend; int32_t 200 src/runtime/hexagon_remote/dlib.cpp int32_t A = r.r_addend; int32_t 6 src/runtime/linux_clock.cpp typedef int32_t clockid_t; int32_t 79 src/runtime/matlab.cpp WEAK mxClassID get_class_id(int32_t type_code, int32_t type_bits) { int32_t 297 src/runtime/matlab.cpp buf->dim[i].extent = static_cast<int32_t>(get_dimension(arr, i)); int32_t 339 src/runtime/matlab.cpp int32_t type_code = arg->type.code; int32_t 340 src/runtime/matlab.cpp int32_t type_bits = arg->type.bits; int32_t 347 src/runtime/matlab.cpp case 32: *reinterpret_cast<int32_t *>(scalar) = static_cast<int32_t>(value); return halide_error_code_success; int32_t 380 src/runtime/matlab.cpp int32_t result_storage; int32_t 381 src/runtime/matlab.cpp int32_t *result_ptr = &result_storage; int32_t 384 src/runtime/matlab.cpp result_ptr = get_data<int32_t>(plhs[0]); int32_t 386 src/runtime/matlab.cpp int32_t &result = *result_ptr; int32_t 665 src/runtime/metal.cpp int32_t buffer_index = 0; int32_t 703 src/runtime/metal.cpp static int32_t total_dispatches = 0; int32_t 8 src/runtime/metal_objc_platform_dependent.cpp int32_t blocks_x, int32_t blocks_y, int32_t blocks_z, int32_t 9 src/runtime/metal_objc_platform_dependent.cpp int32_t threads_x, int32_t threads_y, int32_t threads_z) { int32_t 42 src/runtime/metal_objc_platform_dependent.cpp int32_t blocks_x, int32_t blocks_y, int32_t blocks_z, int32_t 43 src/runtime/metal_objc_platform_dependent.cpp int32_t threads_x, int32_t threads_y, int32_t threads_z); int32_t 9 src/runtime/metal_objc_platform_dependent.h int32_t blocks_x, int32_t blocks_y, int32_t blocks_z, int32_t 10 src/runtime/metal_objc_platform_dependent.h int32_t threads_x, int32_t threads_y, int32_t threads_z); int32_t 44 src/runtime/mini_cl.h typedef int32_t cl_int; int32_t 22 src/runtime/module_jit_ref_count.cpp WEAK void (*halide_jit_module_adjust_ref_count)(void *arg, int32_t count) = NULL; int32_t 87 src/runtime/opengl.cpp WEAK const char *gl_error_name(int32_t err) { int32_t 1582 src/runtime/opengl.cpp uniform_int[uniform_int_idx++] = *((int32_t*)args[i]); int32_t 52 src/runtime/openglcompute.cpp WEAK const char *gl_error_name(int32_t err) { int32_t 12 src/runtime/posix_clock.cpp int32_t tv_sec, tv_usec; int32_t 56 src/runtime/printer.h Printer &operator<<(int32_t arg) { int32_t 46 src/runtime/runtime_internal.h typedef int32_t intptr_t; int32_t 7 src/runtime/tracing.cpp typedef int32_t (*trace_fn)(void *, const halide_trace_event_t *); int32_t 18 src/runtime/tracing.cpp WEAK int32_t default_trace(void *user_context, const halide_trace_event_t *e) { int32_t 19 src/runtime/tracing.cpp static int32_t ids = 1; int32_t 21 src/runtime/tracing.cpp int32_t my_id = __sync_fetch_and_add(&ids, 1); int32_t 29 src/runtime/tracing.cpp uint32_t coords_bytes = e->dimensions * (uint32_t)sizeof(int32_t); int32_t 121 src/runtime/tracing.cpp ss << ((int32_t *)(e->value))[i]; int32_t 201 src/runtime/tracing.cpp WEAK int32_t halide_trace(void *user_context, const halide_trace_event_t *e) { int32_t 20 src/runtime/windows_threads.cpp extern WIN32API Thread CreateThread(void *, size_t, void *(*fn)(void *), void *, int32_t, int32_t *); int32_t 28 src/runtime/windows_threads.cpp extern WIN32API int32_t WaitForSingleObject(Thread, int32_t timeout); int32_t 32 src/runtime/write_debug_image.cpp int32_t count; int32_t 36 src/runtime/write_debug_image.cpp int32_t i32; int32_t 39 src/runtime/write_debug_image.cpp void assign16(uint16_t tag_code, int32_t count, int16_t value) __attribute__((always_inline)) { int32_t 46 src/runtime/write_debug_image.cpp void assign32(uint16_t tag_code, int32_t count, int32_t value) __attribute__((always_inline)) { int32_t 53 src/runtime/write_debug_image.cpp void assign32(uint16_t tag_code, int16_t type_code, int32_t count, int32_t value) __attribute__((always_inline)) { int32_t 64 src/runtime/write_debug_image.cpp int32_t ifd0_offset; int32_t 67 src/runtime/write_debug_image.cpp int32_t ifd0_end; int32_t 68 src/runtime/write_debug_image.cpp int32_t width_resolution[2]; int32_t 69 src/runtime/write_debug_image.cpp int32_t height_resolution[2]; int32_t 102 src/runtime/write_debug_image.cpp WEAK extern "C" int32_t halide_debug_to_file(void *user_context, const char *filename, int32_t 103 src/runtime/write_debug_image.cpp int32_t type_code, struct halide_buffer_t *buf) { int32_t 126 src/runtime/write_debug_image.cpp int32_t bytes_per_element = buf->type.bytes(); int32_t 129 src/runtime/write_debug_image.cpp int32_t channels; int32_t 130 src/runtime/write_debug_image.cpp int32_t width = shape[0].extent; int32_t 131 src/runtime/write_debug_image.cpp int32_t height = shape[1].extent; int32_t 132 src/runtime/write_debug_image.cpp int32_t depth; int32_t 144 src/runtime/write_debug_image.cpp int32_t MMII = 0x4d4d4949; int32_t 166 src/runtime/write_debug_image.cpp channels * sizeof(int32_t)); // strip byte counts, bug if 32-bit truncation int32_t 189 src/runtime/write_debug_image.cpp int32_t offset = sizeof(header) + channels * sizeof(int32_t) * 2; int32_t 191 src/runtime/write_debug_image.cpp for (int32_t i = 0; i < channels; i++) { int32_t 198 src/runtime/write_debug_image.cpp int32_t count = shape[0].extent * shape[1].extent * depth; int32_t 199 src/runtime/write_debug_image.cpp for (int32_t i = 0; i < channels; i++) { int32_t 207 src/runtime/write_debug_image.cpp int32_t header[] = {shape[0].extent, int32_t 224 src/runtime/write_debug_image.cpp for (int32_t dim3 = shape[3].min; dim3 < shape[3].extent + shape[3].min; ++dim3) { int32_t 225 src/runtime/write_debug_image.cpp for (int32_t dim2 = shape[2].min; dim2 < shape[2].extent + shape[2].min; ++dim2) { int32_t 226 src/runtime/write_debug_image.cpp for (int32_t dim1 = shape[1].min; dim1 < shape[1].extent + shape[1].min; ++dim1) { int32_t 227 src/runtime/write_debug_image.cpp for (int32_t dim0 = shape[0].min; dim0 < shape[0].extent + shape[0].min; ++dim0) { int32_t 6 src/runtime/x86_cpu_features.cpp extern "C" void x86_cpuid_halide(int32_t *); int32_t 8 src/runtime/x86_cpu_features.cpp static inline void cpuid(int32_t fn_id, int32_t *info) { int32_t 26 src/runtime/x86_cpu_features.cpp int32_t info[4]; int32_t 123 test/correctness/bitwise_ops.cpp Expr a32 = cast<int32_t>(input(x)); int32_t 20 test/correctness/bool_compute_root_vectorize.cpp int32_t result = evaluate_may_gpu<int32_t>(sum(selector(range.x, range.y))); int32_t 47 test/correctness/boundary_conditions.cpp for (int32_t y = test_min_y; y < test_min_y + test_extent_y; y++) { int32_t 48 test/correctness/boundary_conditions.cpp for (int32_t x = test_min_x; x < test_min_x + test_extent_x; x++) { int32_t 73 test/correctness/boundary_conditions.cpp for (int32_t y = test_min_y; y < test_min_y + test_extent_y; y++) { int32_t 74 test/correctness/boundary_conditions.cpp for (int32_t x = test_min_x; x < test_min_x + test_extent_x; x++) { int32_t 75 test/correctness/boundary_conditions.cpp int32_t clamped_y = std::min(input.height() - 1, std::max(0, y)); int32_t 76 test/correctness/boundary_conditions.cpp int32_t clamped_x = std::min(input.width() - 1, std::max(0, x)); int32_t 97 test/correctness/boundary_conditions.cpp for (int32_t y = test_min_y; y < test_min_y + test_extent_y; y++) { int32_t 98 test/correctness/boundary_conditions.cpp for (int32_t x = test_min_x; x < test_min_x + test_extent_x; x++) { int32_t 99 test/correctness/boundary_conditions.cpp int32_t mapped_x = x; int32_t 100 test/correctness/boundary_conditions.cpp int32_t mapped_y = y; int32_t 125 test/correctness/boundary_conditions.cpp for (int32_t y = test_min_y; y < test_min_y + test_extent_y; y++) { int32_t 126 test/correctness/boundary_conditions.cpp for (int32_t x = test_min_x; x < test_min_x + test_extent_x; x++) { int32_t 127 test/correctness/boundary_conditions.cpp int32_t mapped_x = (x < 0) ? -(x + 1) : x; int32_t 132 test/correctness/boundary_conditions.cpp int32_t mapped_y = (y < 0) ? -(y + 1) : y; int32_t 157 test/correctness/boundary_conditions.cpp for (int32_t y = test_min_y; y < test_min_y + test_extent_y; y++) { int32_t 158 test/correctness/boundary_conditions.cpp for (int32_t x = test_min_x; x < test_min_x + test_extent_x; x++) { int32_t 159 test/correctness/boundary_conditions.cpp int32_t mapped_x = abs(x) % (input.width() * 2 - 2); int32_t 163 test/correctness/boundary_conditions.cpp int32_t mapped_y = abs(y) % (input.height() * 2 - 2); int32_t 180 test/correctness/boundary_conditions.cpp for (int32_t y = 0; y < H; y++) { int32_t 181 test/correctness/boundary_conditions.cpp for (int32_t x = 0; x < W; x++) { int32_t 191 test/correctness/boundary_conditions.cpp const int32_t test_min = -25; int32_t 192 test/correctness/boundary_conditions.cpp const int32_t test_extent = 100; int32_t 227 test/correctness/boundary_conditions.cpp const int32_t test_min = -25; int32_t 228 test/correctness/boundary_conditions.cpp const int32_t test_extent = 100; int32_t 265 test/correctness/boundary_conditions.cpp const int32_t test_min = -25; int32_t 266 test/correctness/boundary_conditions.cpp const int32_t test_extent = 100; int32_t 301 test/correctness/boundary_conditions.cpp const int32_t test_min = -25; int32_t 302 test/correctness/boundary_conditions.cpp const int32_t test_extent = 100; int32_t 337 test/correctness/boundary_conditions.cpp const int32_t test_min = -25; int32_t 338 test/correctness/boundary_conditions.cpp const int32_t test_extent = 100; int32_t 26 test/correctness/bounds_of_abs.cpp Func f3 = lambda(x, input(cast<int32_t>(abs(cast<float>(x))))); int32_t 80 test/correctness/constant_expr.cpp test_expr_range<int32_t>(); int32_t 50 test/correctness/constant_type.cpp ok = ok && test_type<int32_t>(); int32_t 57 test/correctness/debug_to_file.cpp int32_t f_data[11*10]; int32_t 61 test/correctness/debug_to_file.cpp int32_t val = f_data[y*11+x]; int32_t 56 test/correctness/debug_to_file_multiple_outputs.cpp std::vector<int32_t> f_data((size_x + 1)*size_y); int32_t 60 test/correctness/debug_to_file_multiple_outputs.cpp int32_t val = f_data[y*(size_x+1)+x]; int32_t 59 test/correctness/debug_to_file_reorder.cpp std::vector<int32_t> f_data((size_x+1)*size_y); int32_t 63 test/correctness/debug_to_file_reorder.cpp int32_t val = f_data[y*(size_x+1)+x]; int32_t 103 test/correctness/extern_consumer.cpp Buffer<int32_t> buf = source.realize(10); int32_t 31 test/correctness/extern_output_expansion.cpp int32_t *in_origin = (int32_t *)in->host - in->dim[0].min; int32_t 32 test/correctness/extern_output_expansion.cpp int32_t *out_origin = (int32_t *)out->host - out->dim[0].min; int32_t 64 test/correctness/extern_output_expansion.cpp Buffer<int32_t> result = h.realize(100); int32_t 67 test/correctness/extern_output_expansion.cpp int32_t correct = i*i*i*2; int32_t 37 test/correctness/extern_stage.cpp assert(in2->type == halide_type_of<int32_t>()); int32_t 33 test/correctness/external_code.cpp f_extern.define_extern("extern", { }, type_of<int32_t>(), 2); int32_t 47 test/correctness/external_code.cpp Buffer<int32_t> buf(16, 16); int32_t 30 test/correctness/gpu_cpu_simultaneous_read.cpp Buffer<int32_t> t(32); int32_t 34 test/correctness/gpu_cpu_simultaneous_read.cpp Buffer<int32_t> result1 = h.realize(20, 20); int32_t 37 test/correctness/gpu_cpu_simultaneous_read.cpp Buffer<int32_t> result2 = h.realize(20, 20); int32_t 16 test/correctness/gpu_multi_kernel.cpp kernel3(x) = cast<int32_t>(round(x + kernel2(x))); int32_t 28 test/correctness/gpu_multi_kernel.cpp Buffer<int32_t> result = kernel3.realize(256, target); int32_t 33 test/correctness/gpu_multi_kernel.cpp int c = (int32_t)(round(i + b)); int32_t 39 test/correctness/gpu_object_lifetime_1.cpp Buffer<int32_t> result = f.realize(256, target); int32_t 48 test/correctness/histogram.cpp Buffer<int32_t> histogram = g.realize(10); // buckets 10-20 only int32_t 21 test/correctness/infer_arguments.cpp Param<int32_t> height("height"); int32_t 22 test/correctness/infer_arguments.cpp Param<int32_t> width("width"); int32_t 133 test/correctness/inline_reduction.cpp Buffer<int32_t> argmin_implicit_im = argmin_implicit.realize(10, 10); int32_t 137 test/correctness/inline_reduction.cpp Buffer<int32_t> argmax_implicit_im = argmax_implicit.realize(10, 10); int32_t 17 test/correctness/lambda.cpp Buffer<int32_t> im = lambda(f(_) - g(_) + lambda(x, y, x+y)(_)).realize(10, 10); int32_t 34 test/correctness/lambda.cpp Buffer<int32_t> im2 = lambda(_, z, h(_, z)).realize(10, 10, 10); int32_t 41 test/correctness/lerp.cpp template <> struct promote_if_char<signed char> { typedef int32_t promoted; }; int32_t 42 test/correctness/lerp.cpp template <> struct promote_if_char<unsigned char> { typedef int32_t promoted; }; int32_t 70 test/correctness/lerp.cpp void check_range(int32_t zero_min, int32_t zero_extent, value_t zero_offset, value_t zero_scale, int32_t 71 test/correctness/lerp.cpp int32_t one_min, int32_t one_extent, value_t one_offset, value_t one_scale, int32_t 72 test/correctness/lerp.cpp int32_t weight_min, int32_t weight_extent, weight_t weight_offset, weight_t weight_scale, int32_t 93 test/correctness/lerp.cpp for (int32_t i = 0; i < result.extent(0); i++) { int32_t 94 test/correctness/lerp.cpp for (int32_t j = 0; j < result.extent(1); j++) { int32_t 95 test/correctness/lerp.cpp for (int32_t k = 0; k < result.extent(2); k++) { int32_t 167 test/correctness/lerp.cpp std::numeric_limits<int32_t>::min(), 257, 255 * 65535, 1, int32_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, int32_t 218 test/correctness/lerp.cpp std::numeric_limits<int32_t>::min(), 257, 255 * 65535, 1, int32_t 250 test/correctness/lerp.cpp lerp_with_casts(x, y) = lerp(cast<int32_t>(input_a(x, y)), cast<int32_t>(input_b(x, y)), w); int32_t 257 test/correctness/lerp.cpp Buffer<int32_t> result_should_be_a = lerp_with_casts.realize(16, 16); int32_t 259 test/correctness/lerp.cpp Buffer<int32_t> result_should_be_b = lerp_with_casts.realize(16, 16); int32_t 76 test/correctness/load_library.cpp f(x, y) = cast<int32_t>(x + y); int32_t 81 test/correctness/load_library.cpp Buffer<int32_t> out = f.realize(64, 64, target); int32_t 9 test/correctness/make_struct.cpp int32_t b; int32_t 44 test/correctness/make_struct.cpp Expr b = cast<int32_t>(1234567); int32_t 45 test/correctness/math.cpp uint32_t absd(int32_t a, int32_t b) { return a < b ? b - a : a - b; } int32_t 115 test/correctness/math.cpp fun_1(int32_t, int32_t, name, name) \ int32_t 150 test/correctness/math.cpp fun_1(uint32_t, int32_t, abs, abs) int32_t 155 test/correctness/math.cpp fun_2(uint32_t, int32_t, absd, absd) int32_t 243 test/correctness/math.cpp const int32_t int32_min = std::numeric_limits<int32_t>::min(); int32_t 246 test/correctness/math.cpp const int32_t int32_max = std::numeric_limits<int32_t>::max(); int32_t 258 test/correctness/math.cpp call_1(int32_t, abs, 255, -int32_max, int32_max); int32_t 263 test/correctness/math.cpp call_2(int32_t, absd, 256, int32_min, int32_max, int32_min, int32_max); int32_t 49 test/correctness/memoize.cpp extern "C" DLLEXPORT int count_calls_staged(int32_t stage, uint8_t val, halide_buffer_t *in, halide_buffer_t *out) { int32_t 55 test/correctness/memoize.cpp assert(stage < static_cast<int32_t>(sizeof(call_count_staged)/sizeof(call_count_staged[0]))); int32_t 104 test/correctness/memoize.cpp Param<int32_t> coord; int32_t 119 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 120 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 131 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 132 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 153 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 154 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 180 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 181 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 225 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 226 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 255 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 256 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 281 test/correctness/memoize.cpp for (int32_t i = 0; i < 256; i++) { int32_t 282 test/correctness/memoize.cpp for (int32_t j = 0; j < 256; j++) { int32_t 293 test/correctness/memoize.cpp Param<int32_t> index; int32_t 342 test/correctness/memoize.cpp Buffer<int32_t> out1 = out[1]; int32_t 345 test/correctness/memoize.cpp for (int32_t i = 0; i < 100; i++) { int32_t 346 test/correctness/memoize.cpp for (int32_t j = 0; j < 100; j++) { int32_t 356 test/correctness/memoize.cpp for (int32_t i = 0; i < 100; i++) { int32_t 357 test/correctness/memoize.cpp for (int32_t j = 0; j < 100; j++) { int32_t 387 test/correctness/memoize.cpp for (int32_t i = 0; i < 100; i++) { int32_t 388 test/correctness/memoize.cpp for (int32_t j = 0; j < 100; j++) { int32_t 422 test/correctness/memoize.cpp for (int32_t i = 0; i < 100; i++) { int32_t 423 test/correctness/memoize.cpp for (int32_t j = 0; j < 100; j++) { int32_t 445 test/correctness/memoize.cpp for (int32_t i = 0; i < 100; i++) { int32_t 446 test/correctness/memoize.cpp for (int32_t j = 0; j < 100; j++) { int32_t 481 test/correctness/memoize.cpp for (int32_t i = 0; i < 128; i++) { int32_t 482 test/correctness/memoize.cpp for (int32_t j = 0; j < 128; j++) { int32_t 508 test/correctness/memoize.cpp args[0] = cast<int32_t>(i); int32_t 509 test/correctness/memoize.cpp args[1] = cast<int32_t>(val); int32_t 527 test/correctness/memoize.cpp for (int32_t i = 0; i < 128; i++) { int32_t 528 test/correctness/memoize.cpp for (int32_t j = 0; j < 128; j++) { int32_t 538 test/correctness/memoize.cpp for (int32_t i = 0; i < 128; i++) { int32_t 539 test/correctness/memoize.cpp for (int32_t j = 0; j < 128; j++) { int32_t 582 test/correctness/memoize.cpp Buffer<int32_t> out1 = out[1]; int32_t 584 test/correctness/memoize.cpp for (int32_t i = 0; i < 16; i++) { int32_t 585 test/correctness/memoize.cpp for (int32_t j = 0; j < 16; j++) { int32_t 599 test/correctness/memoize.cpp for (int32_t i = 0; i < 16; i++) { int32_t 600 test/correctness/memoize.cpp for (int32_t j = 0; j < 16; j++) { int32_t 46 test/correctness/mod.cpp test<int32_t>() && int32_t 513 test/correctness/mul_div_mod.cpp success &= mul<int32_t, int32_t, int32_t, int64_t>(vector_width, scheduling, target); int32_t 519 test/correctness/mul_div_mod.cpp success &= mul<int16_t, int16_t, int32_t, int64_t>(vector_width, scheduling, target); int32_t 525 test/correctness/mul_div_mod.cpp success &= mul<int16_t, int32_t, int32_t, uint64_t>(vector_width, scheduling, target); int32_t 526 test/correctness/mul_div_mod.cpp success &= mul<uint16_t, int32_t, int32_t, uint64_t>(vector_width, scheduling, target); int32_t 539 test/correctness/mul_div_mod.cpp success &= div_mod<int32_t, int64_t>(vector_width, scheduling, target); int32_t 35 test/correctness/print.cpp Buffer<int32_t> result = f.realize(10); int32_t 37 test/correctness/print.cpp for (int32_t i = 0; i < 10; i++) { int32_t 68 test/correctness/print.cpp Buffer<int32_t> result = f.realize(10); int32_t 70 test/correctness/print.cpp for (int32_t i = 0; i < 10; i++) { int32_t 104 test/correctness/print.cpp int32_t hi = n >> 32; int32_t 105 test/correctness/print.cpp int32_t lo = n & 0xffffffff; int32_t 439 test/correctness/rfactor.cpp Buffer<int32_t> histogram = g.realize(10); // buckets 10-20 only int32_t 467 test/correctness/rfactor.cpp Buffer<int32_t> ref = dot_ref.realize(); int32_t 488 test/correctness/rfactor.cpp Buffer<int32_t> im = dot.realize(); int32_t 507 test/correctness/rfactor.cpp Buffer<int32_t> im = dot.realize(); int32_t 37 test/correctness/saturating_casts.cpp for (int32_t i = 0; i < 7; i++) { int32_t 136 test/correctness/saturating_casts.cpp for (int32_t i = 0; i < 7; i++) { int32_t 229 test/correctness/saturating_casts.cpp test_saturating<source_t, int32_t>(); int32_t 252 test/correctness/saturating_casts.cpp test_concise<source_t, int32_t>(i32, false); int32_t 254 test/correctness/saturating_casts.cpp test_concise<source_t, int32_t>(i32_sat, true); int32_t 274 test/correctness/saturating_casts.cpp test_one_source<int32_t>(); int32_t 21 test/correctness/skip_stages_external_array_functions.cpp for (int32_t i = 0; i < output->dim[0].extent; i++) { int32_t 77 test/correctness/skip_stages_external_array_functions.cpp for (int32_t i = 0; i < 10; i++) { int32_t 86 test/correctness/skip_stages_external_array_functions.cpp for (int32_t i = 0; i < 10; i++) { int32_t 12 test/correctness/tuple_partial_update.cpp f(x, y) = Tuple(x + y, undef<int32_t>()); int32_t 50 test/correctness/tuple_undef.cpp f(x, y) = Tuple(x + y, undef<int32_t>()); int32_t 51 test/correctness/tuple_undef.cpp f(x, y) = Tuple(f(x, y)[0] + undef<int32_t>(), f(x, y)[1] + 2); int32_t 135 test/correctness/tuple_undef.cpp f(x, y) = Tuple(undef<int32_t>(), undef<int32_t>()); int32_t 58 test/correctness/tuple_update_ops.cpp f(x, _) = Tuple(cast<int16_t>(x), cast<int32_t>(g(_))); int32_t 59 test/correctness/tuple_update_ops.cpp f(x, _) += Tuple(cast<int16_t>(2*x), cast<int32_t>(x)); int32_t 63 test/correctness/tuple_update_ops.cpp Buffer<int32_t> b = result[1]; int32_t 19 test/correctness/vector_cast.cpp DECL_SOT(int32_t); int32_t 125 test/correctness/vector_cast.cpp success = success && test<A, int32_t>(vec_width, target); int32_t 156 test/correctness/vector_cast.cpp success = success && test_all<int32_t>(vec_width, target); int32_t 34 test/correctness/vector_math.cpp DECL_SOT(int32_t); int32_t 113 test/correctness/vector_math.cpp struct with_unsigned<int32_t> { int32_t 438 test/correctness/vector_math.cpp Buffer<int32_t> im15 = f15.realize(W, H); int32_t 439 test/correctness/vector_math.cpp Buffer<int32_t> im16 = f16.realize(W, H); int32_t 636 test/correctness/vector_math.cpp futures.push_back(pool.async(test<int32_t>, 4)); int32_t 21 test/correctness/vectorized_reduction_bug.cpp Buffer<int32_t> output = foo.realize(2, 2, 4); int32_t 55 test/correctness/vectorized_reduction_bug.cpp Buffer<int32_t> im = f.realize(100, 100); int32_t 21 test/error/float16_t_overflow_int_conv.cpp const int32_t largeNum = 65536; int32_t 22 test/error/memoize_different_compute_store.cpp for (int32_t i = 0; i < 128; i++) { int32_t 23 test/error/memoize_different_compute_store.cpp for (int32_t j = 0; j < 128; j++) { int32_t 24 test/error/undefined_rdom_dimension.cpp Buffer<int32_t> result = f.realize(100, 5, 3); int32_t 13 test/generator/argvcall_aottest.cpp void verify(const Buffer<int32_t> &img, float f1, float f2) { int32_t 17 test/generator/argvcall_aottest.cpp int expected = (int32_t)(c * (i > j ? i : j) * f1 / f2); int32_t 30 test/generator/argvcall_aottest.cpp Buffer<int32_t> output(kSize, kSize, 3); int32_t 15 test/generator/argvcall_generator.cpp g(x, y, c) = cast<int32_t>(f(x, y) * c * f1 / f2); int32_t 19 test/generator/blur2x2_generator.cpp Input<int32_t> width{ "width" }; int32_t 20 test/generator/blur2x2_generator.cpp Input<int32_t> height{ "height" }; int32_t 12 test/generator/can_use_target_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xdeadbeef); int32_t 66 test/generator/cleanup_on_error_aottest.cpp Buffer<int32_t> output(size); int32_t 13 test/generator/cxx_mangling_aottest.cpp int32_t extract_value_global(int32_t *arg) { int32_t 19 test/generator/cxx_mangling_aottest.cpp int32_t extract_value_ns(const int32_t *arg) { int32_t 40 test/generator/cxx_mangling_aottest.cpp for (int32_t i = 0; i < 100; i++) { int32_t 64 test/generator/cxx_mangling_aottest.cpp int32_t, uint32_t, int32_t 68 test/generator/cxx_mangling_aottest.cpp int32_t *, int32_t const *, int32_t 14 test/generator/cxx_mangling_define_extern_aottest.cpp int32_t extract_value_global(int32_t *arg) { int32_t 20 test/generator/cxx_mangling_define_extern_aottest.cpp int32_t extract_value_ns(const int32_t *arg) { int32_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) { int32_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) { int32_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) { int32_t 45 test/generator/cxx_mangling_define_extern_aottest.cpp for (int32_t i = 0; i < 100; i++) { int32_t 8 test/generator/cxx_mangling_define_extern_generator.cpp Param<int32_t *> int_ptr{"int_ptr", 0}; int32_t 9 test/generator/cxx_mangling_define_extern_generator.cpp Param<int32_t const *> const_int_ptr{"const_int_ptr", 0}; int32_t 31 test/generator/cxx_mangling_define_extern_generator.cpp args.push_back(cast<int32_t>(5)); int32_t 40 test/generator/cxx_mangling_generator.cpp Param<int32_t> offset_i32{"offset_i32", 0}; int32_t 48 test/generator/cxx_mangling_generator.cpp Param<int32_t *> ptr{"ptr", 0}; int32_t 49 test/generator/cxx_mangling_generator.cpp Param<int32_t const *> const_ptr{"const_ptr", 0}; int32_t 13 test/generator/example_aottest.cpp void verify(const Buffer<int32_t> &img, float compiletime_factor, float runtime_factor, int channels) { int32_t 15 test/generator/example_aottest.cpp int expected = (int32_t)(compiletime_factor * runtime_factor * c * (x > y ? x : y)); int32_t 23 test/generator/example_aottest.cpp Buffer<int32_t> output(kSize, kSize, 3); int32_t 10 test/generator/example_jittest.cpp void verify(const Buffer<int32_t> &img, float compiletime_factor, float runtime_factor, int channels) { int32_t 12 test/generator/example_jittest.cpp int expected = (int32_t)(compiletime_factor * runtime_factor * c * (x > y ? x : y)); int32_t 41 test/generator/example_jittest.cpp Halide::Buffer<int32_t> img = gen.realize(kSize, kSize, 3); int32_t 55 test/generator/example_jittest.cpp Halide::Buffer<int32_t> img(kSize, kSize, 3); int32_t 16 test/generator/external_code_aottest.cpp Buffer<int32_t> buf(10, 10); int32_t 12 test/generator/external_code_generator.cpp Input<Buffer<int32_t>> input{ "input", 2 }; int32_t 140 test/generator/image_from_array_aottest.cpp test<int32_t>(); int32_t 28 test/generator/matlab_aottest.cpp template <> mxClassID get_class_id<int32_t>() { return mxINT32_CLASS; } int32_t 119 test/generator/matlab_aottest.cpp case mxINT32_CLASS: return new mxArrayImpl<int32_t>(M, N); int32_t 138 test/generator/matlab_aottest.cpp mxArrayImpl<int32_t> negate(1, 1); int32_t 26 test/generator/memory_profiler_mandelbrot_aottest.cpp const int argmin_stack_peak = vectorize*sizeof(uint8_t) + vectorize*sizeof(int32_t); int32_t 35 test/generator/memory_profiler_mandelbrot_aottest.cpp int stack_size = vectorize*sizeof(uint8_t) + vectorize*sizeof(int32_t); int32_t 41 test/generator/metadata_tester_aottest.cpp bool scalar_union_equal(int32_t type_code, int32_t 42 test/generator/metadata_tester_aottest.cpp int32_t type_bits, int32_t 84 test/generator/metadata_tester_aottest.cpp bool scalar_union_ptr_equal(int32_t type_code, int32_t 85 test/generator/metadata_tester_aottest.cpp int32_t type_bits, int32_t 196 test/generator/metadata_tester_aottest.cpp const halide_scalar_value_t *make_scalar(int32_t v) { int32_t 356 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(32), int32_t 357 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(-32), int32_t 358 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(127), int32_t 572 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(32), int32_t 573 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(-32), int32_t 574 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(127), int32_t 581 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(32), int32_t 582 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(-32), int32_t 583 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(127), int32_t 590 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(32), int32_t 591 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(-32), int32_t 592 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(127), int32_t 599 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(32), int32_t 600 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(-32), int32_t 601 test/generator/metadata_tester_aottest.cpp make_scalar<int32_t>(127), int32_t 18 test/generator/metadata_tester_generator.cpp Input<int32_t> i32{ "i32", 32, -32, 127 }; int32_t 38 test/generator/metadata_tester_generator.cpp Input<int32_t[]> array_i32{ "array_i32", 32, -32, 127 }; // must be overridden to size=2 int32_t 39 test/generator/metadata_tester_generator.cpp Input<int32_t[2]> array2_i32{ "array2_i32", 32, -32, 127 }; int32_t 40 test/generator/msan_aottest.cpp Buffer<int32_t>(*out).copy_from(Buffer<int32_t>(*in)); int32_t 152 test/generator/msan_aottest.cpp expected += (int32_t)(i + y + c); int32_t 168 test/generator/msan_aottest.cpp auto out = Buffer<int32_t>::make_interleaved(4, 4, 3); int32_t 189 test/generator/msan_aottest.cpp std::vector<int32_t> data(((4 * 3) + kPad) * 4); int32_t 190 test/generator/msan_aottest.cpp auto out = Buffer<int32_t>(data.data(), 3, shape); int32_t 204 test/generator/msan_aottest.cpp auto out = Buffer<int32_t>(4, 4, 3); int32_t 224 test/generator/msan_aottest.cpp std::vector<int32_t> data((4 + kPad) * 4 * 3); int32_t 225 test/generator/msan_aottest.cpp auto out = Buffer<int32_t>(data.data(), 3, shape); int32_t 239 test/generator/msan_aottest.cpp auto out = Buffer<int32_t>(1, 1, 1); int32_t 7 test/generator/msan_generator.cpp Output<Buffer<int32_t>> msan_output{"msan_output"}; int32_t 11 test/generator/msan_generator.cpp input(x, y, c) = cast<int32_t>(x + y + c); int32_t 11 test/generator/multitarget_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xdeadbeef); int32_t 13 test/generator/multitarget_generator.cpp f(x, y) = cast<uint32_t>((int32_t)0xf00dcafe); int32_t 10 test/generator/output_assign_aottest.cpp Buffer<int32_t> expected(int extra) { int32_t 11 test/generator/output_assign_aottest.cpp Buffer<int32_t> b(kEdge, kEdge); int32_t 13 test/generator/output_assign_aottest.cpp b(x, y) = (int32_t)(x + y + extra); int32_t 18 test/generator/output_assign_aottest.cpp void compare(Buffer<int32_t> expected, Buffer<int32_t> actual) { int32_t 29 test/generator/output_assign_aottest.cpp Buffer<int32_t> actual0(kEdge, kEdge); int32_t 30 test/generator/output_assign_aottest.cpp Buffer<int32_t> actual1(kEdge, kEdge); int32_t 31 test/generator/output_assign_aottest.cpp Buffer<int32_t> actual2(kEdge, kEdge); int32_t 10 test/generator/output_assign_generator.cpp f(x, y) = cast<int32_t>(x + y + extra); int32_t 38 test/generator/stubtest_generator.cpp Input<int32_t[]> int_arg{ "int_arg", 1 }; // leave ArraySize unspecified int32_t 59 test/generator/stubuser_aottest.cpp verify<uint8_t, int32_t>(input, 1.f, 0, 0.f, int32_buffer_output); int32_t 24 test/generator/stubuser_generator.cpp GeneratorParam<int32_t> int_arg{ "int_arg", 33 }; int32_t 29 test/generator/stubuser_generator.cpp Output<Buffer<int32_t>> int32_buffer_output{"int32_buffer_output" }; int32_t 23 test/generator/user_context_aottest.cpp int32_t my_halide_trace(void *context, const halide_trace_event_t *e) { int32_t 15 test/generator/user_context_insanity_aottest.cpp int32_t my_halide_trace(void *context, const halide_trace_event_t *e) { int32_t 111 test/performance/const_division.cpp success = success && test<int32_t>(1, i == 0); int32_t 118 test/performance/const_division.cpp success = success && test<int32_t>(8, i == 0); int32_t 20 test/performance/memcpy.cpp const int32_t buffer_size = 12345678; int32_t 239 test/performance/rfactor.cpp Buffer<int32_t> vec0(size), vec1(size); int32_t 387 test/performance/rfactor.cpp Buffer<int32_t> vec_A(size); int32_t 20 test/performance/vectorize.cpp DECL_SOT(int32_t); int32_t 106 test/performance/vectorize.cpp ok = ok && test<int32_t>(4); int32_t 40 tools/halide_image_info.h static inline void print_loc(const std::vector<int32_t> &loc, int dim, const int32_t *min) { int32_t 75 tools/halide_image_info.h int32_t *min = buf->min; int32_t 76 tools/halide_image_info.h int32_t *extent = buf->extent; int32_t 77 tools/halide_image_info.h int32_t *stride = buf->stride; int32_t 83 tools/halide_image_info.h int32_t size = 1; int32_t 149 tools/halide_image_info.h int32_t img_size = size * img_bpp; int32_t 150 tools/halide_image_info.h int32_t data_size = (char*)img_next - (char*)img_data; int32_t 172 tools/halide_image_info.h int32_t *min = buf->min; int32_t 173 tools/halide_image_info.h int32_t *extent = buf->extent; int32_t 174 tools/halide_image_info.h int32_t *stride = buf->stride; int32_t 177 tools/halide_image_info.h int32_t size = 1; int32_t 188 tools/halide_image_info.h std::vector<int32_t> curloc(dim); int32_t 194 tools/halide_image_info.h for (int32_t i = 0; i < size; i++) { int32_t 236 tools/halide_image_info.h int32_t *min = buf->min; int32_t 237 tools/halide_image_info.h int32_t *extent = buf->extent; int32_t 238 tools/halide_image_info.h int32_t *stride = buf->stride; int32_t 241 tools/halide_image_info.h int32_t size = 1; int32_t 251 tools/halide_image_info.h std::vector<int32_t> curloc(dim); int32_t 258 tools/halide_image_info.h int32_t cnt = 0; int32_t 262 tools/halide_image_info.h std::vector<int32_t> minloc(dim); int32_t 263 tools/halide_image_info.h std::vector<int32_t> maxloc(dim); int32_t 269 tools/halide_image_info.h for (int32_t i = 0; i < size; i++) { int32_t 52 tools/halide_image_io.h inline void convert(int32_t in, uint8_t &out) {out = in >> 24;} int32_t 62 tools/halide_image_io.h inline void convert(int32_t in, uint16_t &out) {out = in >> 16;} int32_t 70 tools/halide_image_io.h inline void convert(uint8_t in, int32_t &out) {out = in << 24;} int32_t 78 tools/halide_image_io.h inline void convert(uint16_t in, int32_t &out) {out = in << 16;} int32_t 78 tutorial/lesson_01_basics.cpp Halide::Buffer<int32_t> output = gradient.realize(800, 600); int32_t 105 tutorial/lesson_14_types.cpp Expr s32 = cast<int32_t>(x); int32_t 170 tutorial/lesson_14_types.cpp int32_t result32 = evaluate<int>(cast<int32_t>(cast<uint8_t>(255))); int32_t 55 util/HalideTraceViz.cpp return (T)(((const int32_t *)value())[idx]); int32_t 627 util/HalideTraceViz.cpp int32_t id;