Module: LLVM::C

Extended by:

FFI::Library

Defined in:

lib/llvm/core.rb,
lib/llvm/target.rb,
lib/llvm/core_ffi.rb,
lib/llvm/linker_ffi.rb,
lib/llvm/target_ffi.rb,
lib/llvm/analysis_ffi.rb,
lib/llvm/core/bitcode_ffi.rb,
lib/llvm/execution_engine_ffi.rb,
lib/llvm/transforms/pass_builder.rb

Defined Under Namespace

Modules: TargetWrappers Classes: MCJITCompilerOptions, OpaqueExecutionEngine, OpaqueGenericValue, OpaqueMCJITMemoryManager, OpaqueTargetData, OpaqueTargetLibraryInfotData, OpaqueTargetMachine, Target

Class Method Summary

• ._callback_diagnostic_handler_(diagnostic_info_ref, void) ⇒ FFI::Pointer(DiagnosticInfoRef)

  Contexts are execution states for the core LLVM IR system.

• ._callback_memory_manager_allocate_code_section_callback_(uint8_t, opaque, size, alignment, section_id, section_name) ⇒ Integer

  – Operations on memory managers ————————————-===.

• ._callback_memory_manager_allocate_data_section_callback_(uint8_t, opaque, size, alignment, section_id, section_name, is_read_only) ⇒ Integer

  (Not documented).

• ._callback_memory_manager_finalize_memory_callback_(bool, opaque, err_msg) ⇒ Integer

  (Not documented).

• ._callback_yield_callback_(context_ref, void) ⇒ FFI::Pointer(ContextRef)

  (Not documented).

• ._enum_atomic_ordering_ ⇒ Symbol

  (Not documented).

• ._enum_atomic_rmw_bin_op_ ⇒ Symbol

  (Not documented).

• ._enum_attribute_ ⇒ Symbol

  (Not documented).

• ._enum_byte_ordering_ ⇒ Symbol

  (Not documented).

• ._enum_call_conv_ ⇒ Symbol

  (Not documented).

• ._enum_code_gen_file_type_ ⇒ Symbol

  (Not documented).

• ._enum_code_gen_opt_level_ ⇒ Symbol

  (Not documented).

• ._enum_code_model_ ⇒ Symbol

  (Not documented).

• ._enum_diagnostic_severity_ ⇒ Symbol

  (Not documented).

• ._enum_dll_storage_class_ ⇒ Symbol

  (Not documented).

• ._enum_int_predicate_ ⇒ Symbol

  (Not documented).

• ._enum_landing_pad_clause_ty_ ⇒ Symbol

  (Not documented).

• ._enum_linkage_ ⇒ Symbol

  (Not documented).

• ._enum_linker_mode_ ⇒ Symbol

  This enum is provided for backwards-compatibility only.

• ._enum_opcode_ ⇒ Symbol

  (Not documented).

• ._enum_real_predicate_ ⇒ Symbol

  (Not documented).

• ._enum_reloc_mode_ ⇒ Symbol

  (Not documented).

• ._enum_thread_local_mode_ ⇒ Symbol

  (Not documented).

• ._enum_type_kind_ ⇒ Symbol

  (Not documented).

• ._enum_verifier_failure_action_ ⇒ Symbol

  @{.

• ._enum_visibility_ ⇒ Symbol

  (Not documented).

• .abi_alignment_of_type(td, ty) ⇒ Integer

  (Not documented).

• .abi_size_of_type(td, ty) ⇒ Integer

  (Not documented).

• .add_alias(m, ty, aliasee, name) ⇒ FFI::Pointer(ValueRef)

  This group contains function that operate on global alias values.

• .add_analysis_passes(t, pm) ⇒ nil

  Adds the target-specific analysis passes to the pass manager.

• .add_case(switch, on_val, dest) ⇒ nil

  Add a case to the switch instruction.

• .add_clause(landing_pad, clause_val) ⇒ nil

  Add a catch or filter clause to the landingpad instruction.

• .add_destination(indirect_br, dest) ⇒ nil

  Add a destination to the indirectbr instruction.

• .add_function(m, name, function_ty) ⇒ FFI::Pointer(ValueRef)

  Add a function to a module under a specified name.

• .add_global(m, ty, name) ⇒ FFI::Pointer(ValueRef)

  This group contains functions that operate on global variable values.

• .add_global_in_address_space(m, ty, name, address_space) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .add_global_mapping(ee, global, addr) ⇒ nil

  (Not documented).

• .add_incoming(phi_node, incoming_values, incoming_blocks, count) ⇒ nil

  Add an incoming value to the end of a PHI list.

• .add_module(ee, m) ⇒ nil

  (Not documented).

• .add_named_metadata_operand(m, name, val) ⇒ nil

  Add an operand to named metadata.

• .add_symbol(symbol_name, symbol_value) ⇒ nil

  (Not documented).

• .add_target_dependent_function_attr(fn, a, v) ⇒ nil

  Add a target-dependent attribute to a function.

• .add_target_library_info(tli, pm) ⇒ nil

  (Not documented).

• .align_of(ty) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .append_basic_block(fn, name) ⇒ FFI::Pointer(BasicBlockRef)

  Append a basic block to the end of a function using the global context.

• .append_basic_block_in_context(c, fn, name) ⇒ FFI::Pointer(BasicBlockRef)

  Append a basic block to the end of a function.

• .array_type(element_type, element_count) ⇒ FFI::Pointer(TypeRef)

  Create a fixed size array type that refers to a specific type.

• .attach_function(name, *_) ⇒ Object
• .basic_block_as_value(bb) ⇒ FFI::Pointer(ValueRef)

  Convert a basic block instance to a value type.

• .block_address(f, bb) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_a_shr(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  Arithmetic.

• .build_addr_space_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_aggregate_ret(builder_ref, ret_vals, n) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_alloca(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_and(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_array_alloca(builder_ref, ty, val, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_array_malloc(builder_ref, ty, val, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_atomic_rmw(b, op, ptr, val, ordering, single_thread) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_bin_op(b, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_br(builder_ref, dest) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_call(builder_ref, fn, args, num_args, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_cast(b, op, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_cond_br(builder_ref, if_, then_, else_) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_exact_s_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_extract_element(builder_ref, vec_val, index, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_extract_value(builder_ref, agg_val, index, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_cmp(builder_ref, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_neg(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_f_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fence(b, ordering, single_thread, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fp_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fp_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fp_to_si(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fp_to_ui(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_fp_trunc(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_free(builder_ref, pointer_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_gep(b, pointer, indices, num_indices, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_global_string(b, str, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_global_string_ptr(b, str, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_i_cmp(builder_ref, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  Comparisons.

• .build_in_bounds_gep(b, pointer, indices, num_indices, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_indirect_br(b, addr, num_dests) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_insert_element(builder_ref, vec_val, elt_val, index, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_insert_value(builder_ref, agg_val, elt_val, index, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_int_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_int_to_ptr(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_invoke(builder_ref, fn, args, num_args, then_, catch, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_is_not_null(builder_ref, val, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_is_null(builder_ref, val, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_l_shr(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_landing_pad(b, ty, pers_fn, num_clauses, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_load(builder_ref, pointer_val, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_malloc(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

  Memory.

• .build_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_neg(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_not(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nsw_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nsw_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nsw_neg(b, v, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nsw_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nuw_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nuw_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nuw_neg(b, v, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_nuw_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_or(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_phi(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

  Miscellaneous instructions.

• .build_pointer_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_ptr_diff(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_ptr_to_int(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_resume(b, exn) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_ret(builder_ref, v) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_ret_void(builder_ref) ⇒ FFI::Pointer(ValueRef)

  Terminators.

• .build_s_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_s_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_s_ext_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_s_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_select(builder_ref, if_, then_, else_, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_shl(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_shuffle_vector(builder_ref, v1, v2, mask, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_si_to_fp(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_store(builder_ref, val, ptr) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_struct_gep(b, pointer, idx, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_switch(builder_ref, v, else_, num_cases) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_trunc(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  Casts.

• .build_trunc_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_u_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_u_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_ui_to_fp(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_unreachable(builder_ref) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_va_arg(builder_ref, list, ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_xor(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_z_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .build_z_ext_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .byte_order(td) ⇒ Symbol from _enum_byte_ordering_

  (Not documented).

• .call_frame_alignment_of_type(td, ty) ⇒ Integer

  (Not documented).

• .clear_insertion_position(builder) ⇒ nil

  (Not documented).

• .clone_module(m) ⇒ FFI::Pointer(ModuleRef)

  Return an exact copy of the specified module.

• .const_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_addr_space_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_all_ones(ty) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value referring to the instance of a type consisting of all ones.

• .const_array(element_ty, constant_vals, length) ⇒ FFI::Pointer(ValueRef)

  Create a ConstantArray from values.

• .const_bit_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_extract_element(vector_constant, index_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_f_cmp(predicate, lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_f_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_gep(constant_val, constant_indices, num_indices) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_i_cmp(predicate, lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_in_bounds_gep(constant_val, constant_indices, num_indices) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_inline_asm(ty, asm_string, constraints, has_side_effects, is_align_stack) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_insert_element(vector_constant, element_value_constant, index_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_int(int_ty, n, sign_extend) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value for an integer type.

• .const_int_get_s_ext_value(constant_val) ⇒ Integer

  Obtain the sign extended value for an integer constant value.

• .const_int_get_z_ext_value(constant_val) ⇒ Integer

  Obtain the zero extended value for an integer constant value.

• .const_int_of_arbitrary_precision(int_ty, num_words, words) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value for an integer of arbitrary precision.

• .const_int_of_string(int_ty, text, radix) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value for an integer parsed from a string.

• .const_int_of_string_and_size(int_ty, text, s_len, radix) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value for an integer parsed from a string with specified length.

• .const_int_to_ptr(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_named_struct(struct_ty, constant_vals, count) ⇒ FFI::Pointer(ValueRef)

  Create a non-anonymous ConstantStruct from values.

• .const_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_not(constant_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nsw_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nsw_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nsw_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nsw_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_null(ty) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value referring to the null instance of a type.

• .const_nuw_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nuw_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nuw_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_nuw_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_pointer_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_pointer_null(ty) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant that is a constant pointer pointing to NULL for a specified type.

• .const_ptr_to_int(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_real(real_ty, n) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value referring to a double floating point value.

• .const_real_get_double(constant_val, loses_info) ⇒ Float

  Obtain the double value for an floating point constant value.

• .const_real_of_string(real_ty, text) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant for a floating point value parsed from a string.

• .const_real_of_string_and_size(real_ty, text, s_len) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant for a floating point value parsed from a string.

• .const_select(constant_condition, constant_if_true, constant_if_false) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_shl(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_shuffle_vector(vector_a_constant, vector_b_constant, mask_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_string(str, length, dont_null_terminate) ⇒ FFI::Pointer(ValueRef)

  Create a ConstantDataSequential with string content in the global context.

• .const_string_in_context(c, str, length, dont_null_terminate) ⇒ FFI::Pointer(ValueRef)

  Create a ConstantDataSequential and initialize it with a string.

• .const_struct(constant_vals, count, packed) ⇒ FFI::Pointer(ValueRef)

  Create a ConstantStruct in the global Context.

• .const_struct_in_context(c, constant_vals, count, packed) ⇒ FFI::Pointer(ValueRef)

  Create an anonymous ConstantStruct with the specified values.

• .const_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_trunc(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_trunc_or_bit_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .const_vector(scalar_constant_vals, size) ⇒ FFI::Pointer(ValueRef)

  Create a ConstantVector from values.

• .const_xor(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .context_create ⇒ FFI::Pointer(ContextRef)

  Create a new context.

• .context_dispose(c) ⇒ nil

  Destroy a context instance.

• .context_set_diagnostic_handler(c, handler, diagnostic_context) ⇒ nil

  Set the diagnostic handler for this context.

• .context_set_yield_callback(c, callback, opaque_handle) ⇒ nil

  Set the yield callback function for this context.

• .copy_string_rep_of_target_data(td) ⇒ String

  (Not documented).

• .count_basic_blocks(fn) ⇒ Integer

  Obtain the number of basic blocks in a function.

• .count_incoming(phi_node) ⇒ Integer

  Obtain the number of incoming basic blocks to a PHI node.

• .count_param_types(function_ty) ⇒ Integer

  Obtain the number of parameters this function accepts.

• .count_params(fn) ⇒ Integer

  Obtain the number of parameters in a function.

• .count_struct_element_types(struct_ty) ⇒ Integer

  Get the number of elements defined inside the structure.

• .create_builder ⇒ FFI::Pointer(BuilderRef)

  (Not documented).

• .create_builder_in_context(c) ⇒ FFI::Pointer(BuilderRef)

  An instruction builder represents a point within a basic block and is the exclusive means of building instructions using the C interface.

• .create_execution_engine_for_module(out_ee, m, out_error) ⇒ Integer

  – Operations on execution engines ———————————–===.

• .create_function_pass_manager(mp) ⇒ FFI::Pointer(PassManagerRef)

  Deprecated: Use LLVMCreateFunctionPassManagerForModule instead.

• .create_function_pass_manager_for_module(m) ⇒ FFI::Pointer(PassManagerRef)

  Constructs a new function-by-function pass pipeline over the module provider.

• .create_generic_value_of_float(ty, n) ⇒ OpaqueGenericValue

  (Not documented).

• .create_generic_value_of_int(ty, n, is_signed) ⇒ OpaqueGenericValue

  – Operations on generic values ————————————–===.

• .create_generic_value_of_pointer(p) ⇒ OpaqueGenericValue

  (Not documented).

• .create_interpreter_for_module(out_interp, m, out_error) ⇒ Integer

  (Not documented).

• .create_jit_compiler_for_module(out_jit, m, opt_level, out_error) ⇒ Integer

  (Not documented).

• .create_mcjit_compiler_for_module(out_jit, m, options, size_of_options, out_error) ⇒ Integer

  Create an MCJIT execution engine for a module, with the given options.

• .create_memory_buffer_with_contents_of_file(path, out_mem_buf, out_message) ⇒ Integer

  @{.

• .create_memory_buffer_with_memory_range(input_data, input_data_length, buffer_name, requires_null_terminator) ⇒ FFI::Pointer(MemoryBufferRef)

  (Not documented).

• .create_memory_buffer_with_memory_range_copy(input_data, input_data_length, buffer_name) ⇒ FFI::Pointer(MemoryBufferRef)

  (Not documented).

• .create_memory_buffer_with_stdin(out_mem_buf, out_message) ⇒ Integer

  (Not documented).

• .create_message(message) ⇒ String

  – Error handling —————————————————-===.

• .create_module_provider_for_existing_module(m) ⇒ FFI::Pointer(ModuleProviderRef)

  Changes the type of M so it can be passed to FunctionPassManagers and the JIT.

• .create_pass_manager ⇒ FFI::Pointer(PassManagerRef)

  Constructs a new whole-module pass pipeline.

• .create_simple_mcjit_memory_manager(opaque, allocate_code_section, allocate_data_section, finalize_memory, destroy) ⇒ OpaqueMCJITMemoryManager

  Create a simple custom MCJIT memory manager.

• .create_target_data(string_rep) ⇒ OpaqueTargetData

  (Not documented).

• .create_target_data_layout(t) ⇒ OpaqueTargetData

  Create a DataLayout based on the targetMachine.

• .create_target_machine(t, triple, cpu, features, level, reloc, code_model) ⇒ OpaqueTargetMachine

  Creates a new llvm::TargetMachine.

• .delete_basic_block(bb) ⇒ nil

  Remove a basic block from a function and delete it.

• .delete_function(fn) ⇒ nil

  Remove a function from its containing module and deletes it.

• .delete_global(global_var) ⇒ nil

  (Not documented).

• .dispose_builder(builder) ⇒ nil

  (Not documented).

• .dispose_execution_engine(ee) ⇒ nil

  (Not documented).

• .dispose_generic_value(gen_val) ⇒ nil

  (Not documented).

• .dispose_mcjit_memory_manager(mm) ⇒ nil

  (Not documented).

• .dispose_memory_buffer(mem_buf) ⇒ nil

  (Not documented).

• .dispose_message(message) ⇒ nil

  (Not documented).

• .dispose_module(m) ⇒ nil

  Destroy a module instance.

• .dispose_module_provider(m) ⇒ nil

  Destroys the module M.

• .dispose_pass_manager(pm) ⇒ nil

  Frees the memory of a pass pipeline.

• .dispose_target_data(td) ⇒ nil

  (Not documented).

• .dispose_target_machine(t) ⇒ nil

  Dispose the LLVMTargetMachineRef instance generated by LLVMCreateTargetMachine.

• .double_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .double_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 64-bit floating point type from a context.

• .dump_module(m) ⇒ nil

  Dump a representation of a module to stderr.

• .dump_type(val) ⇒ nil

  Dump a representation of a type to stderr.

• .dump_value(val) ⇒ nil

  Dump a representation of a value to stderr.

• .element_at_offset(td, struct_ty, offset) ⇒ Integer

  (Not documented).

• .finalize_function_pass_manager(fpm) ⇒ Integer

  Finalizes all of the function passes scheduled in in the function pass manager.

• .find_function(ee, name, out_fn) ⇒ Integer

  (Not documented).

• .float_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .float_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 32-bit floating point type from a context.

• .fp128_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .fp128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 128-bit floating point type (112-bit mantissa) from a context.

• .free_machine_code_for_function(ee, f) ⇒ nil

  (Not documented).

• .function_type(return_type, param_types, param_count, is_var_arg) ⇒ FFI::Pointer(TypeRef)

  Obtain a function type consisting of a specified signature.

• .generic_value_int_width(gen_val_ref) ⇒ Integer

  (Not documented).

• .generic_value_to_float(ty_ref, gen_val) ⇒ Float

  (Not documented).

• .generic_value_to_int(gen_val, is_signed) ⇒ Integer

  (Not documented).

• .generic_value_to_pointer(gen_val) ⇒ FFI::Pointer(*Void)

  (Not documented).

• .get_alignment(v) ⇒ Integer

  Obtain the preferred alignment of the value.

• .get_array_length(array_ty) ⇒ Integer

  Obtain the length of an array type.

• .get_as_string(c, out) ⇒ String

  Get the given constant data sequential as a string.

• .get_basic_block_parent(bb) ⇒ FFI::Pointer(ValueRef)

  Obtain the function to which a basic block belongs.

• .get_basic_block_terminator(bb) ⇒ FFI::Pointer(ValueRef)

  Obtain the terminator instruction for a basic block.

• .get_basic_blocks(fn, basic_blocks) ⇒ nil

  Obtain all of the basic blocks in a function.

• .get_bitcode_module(mem_buf, out_m, out_message) ⇒ Integer

  (Not documented).

• .get_bitcode_module2(mem_buf, out_m) ⇒ Integer

  (Not documented).

• .get_bitcode_module_in_context(context_ref, mem_buf, out_m, out_message) ⇒ Integer

  (Not documented).

• .get_bitcode_module_in_context2(context_ref, mem_buf, out_m) ⇒ Integer

  (Not documented).

• .get_buffer_size(mem_buf) ⇒ Integer

  (Not documented).

• .get_buffer_start(mem_buf) ⇒ String

  (Not documented).

• .get_condition(branch) ⇒ FFI::Pointer(ValueRef)

  Return the condition of a branch instruction.

• .get_const_opcode(constant_val) ⇒ Symbol from _enum_opcode_

  Functions in this group correspond to APIs on llvm::ConstantExpr.

• .get_current_debug_location(builder) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_data_layout(m) ⇒ String

  Obtain the data layout for a module.

• .get_default_target_triple ⇒ String

  Get a triple for the host machine as a string.

• .get_diag_info_description(di) ⇒ String

  Return a string representation of the DiagnosticInfo.

• .get_diag_info_severity(di) ⇒ Symbol from _enum_diagnostic_severity_

  Return an enum LLVMDiagnosticSeverity.

• .get_dll_storage_class(global) ⇒ Symbol from _enum_dll_storage_class_

  (Not documented).

• .get_element_as_constant(c, idx) ⇒ FFI::Pointer(ValueRef)

  Get an element at specified index as a constant.

• .get_element_type(ty) ⇒ FFI::Pointer(TypeRef)

  Obtain the type of elements within a sequential type.

• .get_entry_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain the basic block that corresponds to the entry point of a function.

• .get_execution_engine_target_data(ee) ⇒ FFI::Pointer(TargetDataRef)

  (Not documented).

• .get_execution_engine_target_machine(ee) ⇒ FFI::Pointer(TargetMachineRef)

  (Not documented).

• .get_f_cmp_predicate(inst) ⇒ Symbol from _enum_real_predicate_

  Obtain the float predicate of an instruction.

• .get_first_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain the first basic block in a function.

• .get_first_function(m) ⇒ FFI::Pointer(ValueRef)

  Obtain an iterator to the first Function in a Module.

• .get_first_global(m) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_first_instruction(bb) ⇒ FFI::Pointer(ValueRef)

  Obtain the first instruction in a basic block.

• .get_first_param(fn) ⇒ FFI::Pointer(ValueRef)

  Obtain the first parameter to a function.

• .get_first_target ⇒ Target

  Returns the first llvm::Target in the registered targets list.

• .get_first_use(val) ⇒ FFI::Pointer(UseRef)

  Obtain the first use of a value.

• .get_function_address(ee, name) ⇒ Integer

  (Not documented).

• .get_function_call_conv(fn) ⇒ Integer

  Obtain the calling function of a function.

• .get_gc(fn) ⇒ String

  Obtain the name of the garbage collector to use during code generation.

• .get_global_context ⇒ FFI::Pointer(ContextRef)

  Obtain the global context instance.

• .get_global_parent(global) ⇒ FFI::Pointer(ModuleRef)

  This group contains functions that operate on global values.

• .get_global_pass_registry ⇒ FFI::Pointer(PassRegistryRef)

  Return the global pass registry, for use with initialization functions.

• .get_global_value_address(ee, name) ⇒ Integer

  (Not documented).

• .get_i_cmp_predicate(inst) ⇒ Symbol from _enum_int_predicate_

  Obtain the predicate of an instruction.

• .get_incoming_block(phi_node, index) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain an incoming value to a PHI node as an LLVMBasicBlockRef.

• .get_incoming_value(phi_node, index) ⇒ FFI::Pointer(ValueRef)

  Obtain an incoming value to a PHI node as an LLVMValueRef.

• .get_initializer(global_var) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_insert_block(builder) ⇒ FFI::Pointer(BasicBlockRef)

  (Not documented).

• .get_instruction_call_conv(instr) ⇒ Integer

  Obtain the calling convention for a call instruction.

• .get_instruction_opcode(inst) ⇒ Symbol from _enum_opcode_

  Obtain the code opcode for an individual instruction.

• .get_instruction_parent(inst) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain the basic block to which an instruction belongs.

• .get_int_type_width(integer_ty) ⇒ Integer

  (Not documented).

• .get_intrinsic_id(fn) ⇒ Integer

  Obtain the ID number from a function instance.

• .get_last_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain the last basic block in a function.

• .get_last_function(m) ⇒ FFI::Pointer(ValueRef)

  Obtain an iterator to the last Function in a Module.

• .get_last_global(m) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_last_instruction(bb) ⇒ FFI::Pointer(ValueRef)

  Obtain the last instruction in a basic block.

• .get_last_param(fn) ⇒ FFI::Pointer(ValueRef)

  Obtain the last parameter to a function.

• .get_linkage(global) ⇒ Symbol from _enum_linkage_

  (Not documented).

• .get_md_kind_id(name, s_len) ⇒ Integer

  (Not documented).

• .get_md_kind_id_in_context(c, name, s_len) ⇒ Integer

  (Not documented).

• .get_md_node_num_operands(v) ⇒ Object

  Obtain the number of operands from an MDNode value.

• .get_md_node_operands(v, dest) ⇒ nil

  Obtain the given MDNode’s operands.

• .get_md_string(v, len) ⇒ Object

  Obtain the underlying string from a MDString value.

• .get_metadata(val, kind_id) ⇒ FFI::Pointer(ValueRef)

  Return metadata associated with an instruction value.

• .get_module_context(m) ⇒ FFI::Pointer(ContextRef)

  Obtain the context to which this module is associated.

• .get_module_data_layout(m) ⇒ OpaqueTargetData

  (Not documented).

• .get_named_function(m, name) ⇒ FFI::Pointer(ValueRef)

  Obtain a Function value from a Module by its name.

• .get_named_global(m, name) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_named_metadata_num_operands(m, name) ⇒ Integer

  Obtain the number of operands for named metadata in a module.

• .get_named_metadata_operands(m, name, dest) ⇒ nil

  Obtain the named metadata operands for a module.

• .get_next_basic_block(bb) ⇒ FFI::Pointer(BasicBlockRef)

  Advance a basic block iterator.

• .get_next_function(fn) ⇒ FFI::Pointer(ValueRef)

  Advance a Function iterator to the next Function.

• .get_next_global(global_var) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_next_instruction(inst) ⇒ FFI::Pointer(ValueRef)

  Obtain the instruction that occurs after the one specified.

• .get_next_param(arg) ⇒ FFI::Pointer(ValueRef)

  Obtain the next parameter to a function.

• .get_next_target(t) ⇒ Target

  Returns the next llvm::Target given a previous one (or null if there’s none).

• .get_next_use(u) ⇒ FFI::Pointer(UseRef)

  Obtain the next use of a value.

• .get_num_operands(val) ⇒ Integer

  Obtain the number of operands in a llvm::User value.

• .get_num_successors(term) ⇒ Integer

  Return the number of successors that this terminator has.

• .get_operand(val, index) ⇒ FFI::Pointer(ValueRef)

  Obtain an operand at a specific index in a llvm::User value.

• .get_operand_use(val, index) ⇒ FFI::Pointer(UseRef)

  Obtain the use of an operand at a specific index in a llvm::User value.

• .get_ordering(memory_access_inst) ⇒ Symbol from _enum_atomic_ordering_

  (Not documented).

• .get_param(fn, index) ⇒ FFI::Pointer(ValueRef)

  Obtain the parameter at the specified index.

• .get_param_parent(inst) ⇒ FFI::Pointer(ValueRef)

  Obtain the function to which this argument belongs.

• .get_param_types(function_ty, dest) ⇒ nil

  Obtain the types of a function’s parameters.

• .get_params(fn, params) ⇒ nil

  Obtain the parameters in a function.

• .get_personality_fn(fn) ⇒ FFI::Pointer(ValueRef)

  Obtain the personality function attached to the function.

• .get_pointer_address_space(pointer_ty) ⇒ Integer

  Obtain the address space of a pointer type.

• .get_pointer_to_global(ee, global) ⇒ FFI::Pointer(*Void)

  (Not documented).

• .get_previous_basic_block(bb) ⇒ FFI::Pointer(BasicBlockRef)

  Go backwards in a basic block iterator.

• .get_previous_function(fn) ⇒ FFI::Pointer(ValueRef)

  Decrement a Function iterator to the previous Function.

• .get_previous_global(global_var) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .get_previous_instruction(inst) ⇒ FFI::Pointer(ValueRef)

  Obtain the instruction that occurred before this one.

• .get_previous_param(arg) ⇒ FFI::Pointer(ValueRef)

  Obtain the previous parameter to a function.

• .get_return_type(function_ty) ⇒ FFI::Pointer(TypeRef)

  Obtain the Type this function Type returns.

• .get_section(global) ⇒ String

  (Not documented).

• .get_struct_element_types(struct_ty, dest) ⇒ nil

  Get the elements within a structure.

• .get_struct_name(ty) ⇒ String

  Obtain the name of a structure.

• .get_successor(term, i) ⇒ FFI::Pointer(BasicBlockRef)

  Return the specified successor.

• .get_switch_default_dest(switch_instr) ⇒ FFI::Pointer(BasicBlockRef)

  Obtain the default destination basic block of a switch instruction.

• .get_target(m) ⇒ String

  Obtain the target triple for a module.

• .get_target_description(t) ⇒ String

  Returns the description of a target.

• .get_target_from_name(name) ⇒ Target

  Finds the target corresponding to the given name and stores it in p T.

• .get_target_from_triple(triple, t, error_message) ⇒ Integer

  Finds the target corresponding to the given triple and stores it in p T.

• .get_target_machine_cpu(t) ⇒ String

  Returns the cpu used creating this target machine.

• .get_target_machine_feature_string(t) ⇒ String

  Returns the feature string used creating this target machine.

• .get_target_machine_target(t) ⇒ Target

  Returns the Target used in a TargetMachine.

• .get_target_machine_triple(t) ⇒ String

  Returns the triple used creating this target machine.

• .get_target_name(t) ⇒ String

  Returns the name of a target.

• .get_thread_local_mode(global_var) ⇒ Symbol from _enum_thread_local_mode_

  (Not documented).

• .get_type_by_name(m, name) ⇒ FFI::Pointer(TypeRef)

  Obtain a Type from a module by its registered name.

• .get_type_context(ty) ⇒ FFI::Pointer(ContextRef)

  Obtain the context to which this type instance is associated.

• .get_type_kind(ty) ⇒ Symbol from _enum_type_kind_

  Obtain the enumerated type of a Type instance.

• .get_undef(ty) ⇒ FFI::Pointer(ValueRef)

  Obtain a constant value referring to an undefined value of a type.

• .get_used_value(u) ⇒ FFI::Pointer(ValueRef)

  Obtain the value this use corresponds to.

• .get_user(u) ⇒ FFI::Pointer(ValueRef)

  Obtain the user value for a user.

• .get_value_name(val) ⇒ String

  Obtain the string name of a value.

• .get_vector_size(vector_ty) ⇒ Integer

  Obtain the number of elements in a vector type.

• .get_visibility(global) ⇒ Symbol from _enum_visibility_

  (Not documented).

• .get_volatile(memory_access_inst) ⇒ Integer

  (Not documented).

• .half_type ⇒ FFI::Pointer(TypeRef)

  Obtain a floating point type from the global context.

• .half_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 16-bit floating point type from a context.

• .has_metadata(val) ⇒ Integer

  Determine whether an instruction has any metadata attached.

• .has_unnamed_addr(global) ⇒ Integer

  (Not documented).

• .initialize_all_asm_parsers ⇒ nil

  (Not documented).

• .initialize_all_asm_printers ⇒ nil

  (Not documented).

• .initialize_all_disassemblers ⇒ nil

  (Not documented).

• .initialize_all_target_infos ⇒ nil

  (Not documented).

• .initialize_all_target_m_cs ⇒ nil

  (Not documented).

• .initialize_all_targets ⇒ nil

  (Not documented).

• .initialize_core(r) ⇒ nil

  @}.

• .initialize_function_pass_manager(fpm) ⇒ Integer

  Initializes all of the function passes scheduled in the function pass manager.

• .initialize_mcjit_compiler_options(options, size_of_options) ⇒ nil

  (Not documented).

• .initialize_native_asm_parser ⇒ Integer

  (Not documented).

• .initialize_native_asm_printer ⇒ Integer

  (Not documented).

• .initialize_native_disassembler ⇒ Integer

  (Not documented).

• .initialize_native_target ⇒ Integer

  (Not documented).

• .insert_basic_block(insert_before_bb, name) ⇒ FFI::Pointer(BasicBlockRef)

  Insert a basic block in a function using the global context.

• .insert_basic_block_in_context(c, bb, name) ⇒ FFI::Pointer(BasicBlockRef)

  Insert a basic block in a function before another basic block.

• .insert_into_builder(builder, instr) ⇒ nil

  (Not documented).

• .insert_into_builder_with_name(builder, instr, name) ⇒ nil

  (Not documented).

• .instruction_clone(inst) ⇒ FFI::Pointer(ValueRef)

  Create a copy of ‘this’ instruction that is identical in all ways except the following: * The instruction has no parent * The instruction has no name.

• .instruction_erase_from_parent(inst) ⇒ nil

  Remove and delete an instruction.

• .int128_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int16_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int16_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int1_type ⇒ FFI::Pointer(TypeRef)

  Obtain an integer type from the global context with a specified bit width.

• .int1_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain an integer type from a context with specified bit width.

• .int32_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int32_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int64_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int64_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int8_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int8_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_ptr_type(td) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_ptr_type_for_as(td, as) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_ptr_type_for_as_in_context(c, td, as) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_ptr_type_in_context(c, td) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_type(num_bits) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .int_type_in_context(c, num_bits) ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .is_a_addr_space_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_alloca_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_argument(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_basic_block(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_binary_operator(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_bit_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_block_address(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_branch_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_call_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_catch_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_catch_return_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_cleanup_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_cleanup_return_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_aggregate_zero(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_array(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_data_array(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_data_sequential(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_data_vector(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_expr(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_fp(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_int(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_pointer_null(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_struct(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_token_none(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_constant_vector(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_dbg_declare_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_dbg_info_intrinsic(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_extract_element_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_extract_value_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_funclet_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_function(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_get_element_ptr_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_global_alias(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_global_object(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_global_value(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_global_variable(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_indirect_br_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_inline_asm(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_insert_element_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_insert_value_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_instruction(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_int_to_ptr_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_intrinsic_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_invoke_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_landing_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_load_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_mem_cpy_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_mem_intrinsic(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_mem_move_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_mem_set_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_ptr_to_int_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_resume_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_return_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_select_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_shuffle_vector_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_store_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_switch_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_terminator_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_trunc_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_unary_instruction(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_undef_value(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_unreachable_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_a_user(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_af_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_afp_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_afp_to_si_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_afp_to_ui_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_afp_trunc_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_ai_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_amd_node(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_amd_string(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_aphi_node(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_as_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_asi_to_fp_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_aui_to_fp_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_ava_arg_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_az_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .is_conditional(branch) ⇒ Integer

  Return if a branch is conditional.

• .is_constant(val) ⇒ Integer

  Determine whether the specified constant instance is constant.

• .is_constant_string(c) ⇒ Integer

  Returns true if the specified constant is an array of i8.

• .is_declaration(global) ⇒ Integer

  (Not documented).

• .is_externally_initialized(global_var) ⇒ Integer

  (Not documented).

• .is_function_var_arg(function_ty) ⇒ Integer

  Returns whether a function type is variadic.

• .is_global_constant(global_var) ⇒ Integer

  (Not documented).

• .is_literal_struct(struct_ty) ⇒ Bool

  Determine whether a structure is literal.

• .is_multithreaded ⇒ Integer

  Check whether LLVM is executing in thread-safe mode or not.

• .is_null(val) ⇒ Integer

  Determine whether a value instance is null.

• .is_opaque_struct(struct_ty) ⇒ Bool

  Determine whether a structure is opaque.

• .is_packed_struct(struct_ty) ⇒ Bool

  Determine whether a structure is packed.

• .is_tail_call(call_inst) ⇒ Integer

  Obtain whether a call instruction is a tail call.

• .is_thread_local(global_var) ⇒ Integer

  (Not documented).

• .is_undef(val) ⇒ Integer

  Determine whether a value instance is undefined.

• .label_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .label_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Create a label type in a context.

• .link_in_interpreter ⇒ nil

  (Not documented).

• .link_in_mcjit ⇒ nil

  @{.

• .link_modules2(dest, src) ⇒ Integer

  Links the source module into the destination module.

• .load_library_permanently(filename) ⇒ Integer

  (Not documented).

• .md_node(vals, count) ⇒ FFI::Pointer(ValueRef)

  Obtain a MDNode value from the global context.

• .md_node_in_context(c, vals, count) ⇒ FFI::Pointer(ValueRef)

  Obtain a MDNode value from a context.

• .md_string(str, s_len) ⇒ FFI::Pointer(ValueRef)

  Obtain a MDString value from the global context.

• .md_string_in_context(c, str, s_len) ⇒ FFI::Pointer(ValueRef)

  Obtain a MDString value from a context.

• .module_create_with_name(module_id) ⇒ FFI::Pointer(ModuleRef)

  Create a new, empty module in the global context.

• .module_create_with_name_in_context(module_id, c) ⇒ FFI::Pointer(ModuleRef)

  Create a new, empty module in a specific context.

• .move_basic_block_after(bb, move_pos) ⇒ nil

  Move a basic block to after another one.

• .move_basic_block_before(bb, move_pos) ⇒ nil

  Move a basic block to before another one.

• .offset_of_element(td, struct_ty, element) ⇒ Integer

  (Not documented).

• .parse_bitcode(mem_buf, out_module, out_message) ⇒ Integer

  (Not documented).

• .parse_bitcode2(mem_buf, out_module) ⇒ Integer

  (Not documented).

• .parse_bitcode_in_context(context_ref, mem_buf, out_module, out_message) ⇒ Integer

  (Not documented).

• .parse_bitcode_in_context2(context_ref, mem_buf, out_module) ⇒ Integer

  (Not documented).

• .parse_command_line_options(argc, argv, overview) ⇒ nil

  This function parses the given arguments using the LLVM command line parser.

• .pointer_size(td) ⇒ Integer

  (Not documented).

• .pointer_size_for_as(td, as) ⇒ Integer

  (Not documented).

• .pointer_type(element_type, address_space) ⇒ FFI::Pointer(TypeRef)

  Create a pointer type that points to a defined type.

• .position_builder(builder, block, instr) ⇒ nil

  (Not documented).

• .position_builder_at_end(builder, block) ⇒ nil

  (Not documented).

• .position_builder_before(builder, instr) ⇒ nil

  (Not documented).

• .ppcfp128_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .ppcfp128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 128-bit floating point type (two 64-bits) from a context.

• .preferred_alignment_of_global(td, global_var) ⇒ Integer

  (Not documented).

• .preferred_alignment_of_type(td, ty) ⇒ Integer

  (Not documented).

• .print_module_to_file(m, filename, error_message) ⇒ Integer

  Print a representation of a module to a file.

• .print_module_to_string(m) ⇒ String

  Return a string representation of the module.

• .print_type_to_string(val) ⇒ String

  Return a string representation of the type.

• .print_value_to_string(val) ⇒ String

  Return a string representation of the value.

• .recompile_and_relink_function(ee, fn) ⇒ FFI::Pointer(*Void)

  (Not documented).

• .remove_basic_block_from_parent(bb) ⇒ nil

  Remove a basic block from a function.

• .remove_module(ee, m, out_mod, out_error) ⇒ Integer

  (Not documented).

• .replace_all_uses_with(old_val, new_val) ⇒ nil

  Replace all uses of a value with another one.

• .run_function(ee, f, num_args, args) ⇒ OpaqueGenericValue

  (Not documented).

• .run_function_as_main(ee, f, arg_c, arg_v, env_p) ⇒ Integer

  (Not documented).

• .run_function_pass_manager(fpm, f) ⇒ Integer

  Executes all of the function passes scheduled in the function pass manager on the provided function.

• .run_pass_manager(pm, m) ⇒ Integer

  Initializes, executes on the provided module, and finalizes all of the passes scheduled in the pass manager.

• .run_passes(pmb, opt_level) ⇒ nil

  /** * Construct and run a set of passes over a module * * This function takes a string with the passes that should be used.

• .run_static_constructors(ee) ⇒ nil

  (Not documented).

• .run_static_destructors(ee) ⇒ nil

  (Not documented).

• .search_for_address_of_symbol(symbol_name) ⇒ FFI::Pointer(*Void)

  (Not documented).

• .set_alignment(v, bytes) ⇒ nil

  Set the preferred alignment of the value.

• .set_cleanup(landing_pad, val) ⇒ nil

  Set the ‘cleanup’ flag in the landingpad instruction.

• .set_condition(branch, cond) ⇒ nil

  Set the condition of a branch instruction.

• .set_current_debug_location(builder, l) ⇒ nil

  Metadata.

• .set_data_layout(m, triple) ⇒ nil

  Set the data layout for a module.

• .set_dll_storage_class(global, class_) ⇒ nil

  (Not documented).

• .set_externally_initialized(global_var, is_ext_init) ⇒ nil

  (Not documented).

• .set_function_call_conv(fn, cc) ⇒ nil

  Set the calling convention of a function.

• .set_gc(fn, name) ⇒ nil

  Define the garbage collector to use during code generation.

• .set_global_constant(global_var, is_constant) ⇒ nil

  (Not documented).

• .set_initializer(global_var, constant_val) ⇒ nil

  (Not documented).

• .set_inst_debug_location(builder, inst) ⇒ nil

  (Not documented).

• .set_instr_param_alignment(instr, index, align) ⇒ nil

  (Not documented).

• .set_instruction_call_conv(instr, cc) ⇒ nil

  Set the calling convention for a call instruction.

• .set_linkage(global, linkage) ⇒ nil

  (Not documented).

• .set_metadata(val, kind_id, node) ⇒ nil

  Set metadata associated with an instruction value.

• .set_module_data_layout(m, dl) ⇒ nil

  (Not documented).

• .set_module_inline_asm(m, asm) ⇒ nil

  Set inline assembly for a module.

• .set_operand(user, index, val) ⇒ nil

  Set an operand at a specific index in a llvm::User value.

• .set_ordering(memory_access_inst, ordering) ⇒ nil

  (Not documented).

• .set_param_alignment(arg, align) ⇒ nil

  Set the alignment for a function parameter.

• .set_personality_fn(fn, personality_fn) ⇒ nil

  Set the personality function attached to the function.

• .set_section(global, section) ⇒ nil

  (Not documented).

• .set_successor(term, i, block) ⇒ nil

  Update the specified successor to point at the provided block.

• .set_tail_call(call_inst, is_tail_call) ⇒ nil

  Set whether a call instruction is a tail call.

• .set_target(m, triple) ⇒ nil

  Set the target triple for a module.

• .set_target_machine_asm_verbosity(t, verbose_asm) ⇒ nil

  Set the target machine’s ASM verbosity.

• .set_thread_local(global_var, is_thread_local) ⇒ nil

  (Not documented).

• .set_thread_local_mode(global_var, mode) ⇒ nil

  (Not documented).

• .set_unnamed_addr(global, has_unnamed_addr) ⇒ nil

  (Not documented).

• .set_value_name(val, name) ⇒ nil

  Set the string name of a value.

• .set_visibility(global, viz) ⇒ nil

  (Not documented).

• .set_volatile(memory_access_inst, is_volatile) ⇒ nil

  (Not documented).

• .shutdown ⇒ nil

  Deallocate and destroy all ManagedStatic variables.

• .size_of(ty) ⇒ FFI::Pointer(ValueRef)

  (Not documented).

• .size_of_type_in_bits(td, ty) ⇒ Integer

  (Not documented).

• .start_multithreaded ⇒ Integer

  Deprecated: Multi-threading can only be enabled/disabled with the compile time define LLVM_ENABLE_THREADS.

• .stop_multithreaded ⇒ nil

  Deprecated: Multi-threading can only be enabled/disabled with the compile time define LLVM_ENABLE_THREADS.

• .store_size_of_type(td, ty) ⇒ Integer

  (Not documented).

• .struct_create_named(c, name) ⇒ FFI::Pointer(TypeRef)

  Create an empty structure in a context having a specified name.

• .struct_get_type_at_index(struct_ty, i) ⇒ FFI::Pointer(TypeRef)

  Get the type of the element at a given index in the structure.

• .struct_set_body(struct_ty, element_types, element_count, packed) ⇒ nil

  Set the contents of a structure type.

• .struct_type(element_types, element_count, packed) ⇒ FFI::Pointer(TypeRef)

  Create a new structure type in the global context.

• .struct_type_in_context(c, element_types, element_count, packed) ⇒ FFI::Pointer(TypeRef)

  Create a new structure type in a context.

• .target_has_asm_backend(t) ⇒ Integer

  Returns if the target as an ASM backend (required for emitting output).

• .target_has_jit(t) ⇒ Integer

  Returns if the target has a JIT.

• .target_has_target_machine(t) ⇒ Integer

  Returns if the target has a TargetMachine associated.

• .target_machine_emit_to_file(t, m, filename, codegen, error_message) ⇒ Integer

  Emits an asm or object file for the given module to the filename.

• .target_machine_emit_to_memory_buffer(t, m, codegen, error_message, out_mem_buf) ⇒ Integer

  Compile the LLVM IR stored in p M and store the result in p OutMemBuf.

• .type_is_sized(ty) ⇒ Integer

  Whether the type has a known size.

• .type_of(val) ⇒ FFI::Pointer(TypeRef)

  Obtain the type of a value.

• .value_as_basic_block(val) ⇒ FFI::Pointer(BasicBlockRef)

  Convert an LLVMValueRef to an LLVMBasicBlockRef instance.

• .value_is_basic_block(val) ⇒ Integer

  Determine whether an LLVMValueRef is itself a basic block.

• .vector_type(element_type, element_count) ⇒ FFI::Pointer(TypeRef)

  Create a vector type that contains a defined type and has a specific number of elements.

• .verify_function(fn, action) ⇒ Integer

  Verifies that a single function is valid, taking the specified action.

• .verify_module(m, action, out_message) ⇒ Integer

  Verifies that a module is valid, taking the specified action if not.

• .view_function_cfg(fn) ⇒ nil

  Open up a ghostview window that displays the CFG of the current function.

• .view_function_cfg_only(fn) ⇒ nil

  (Not documented).

• .void_type ⇒ FFI::Pointer(TypeRef)

  These are similar to the above functions except they operate on the global context.

• .void_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Create a void type in a context.

• .write_bitcode_to_fd(m, fd, should_close, unbuffered) ⇒ Integer

  Writes a module to an open file descriptor.

• .write_bitcode_to_file(m, path) ⇒ Integer

  Writes a module to the specified path.

• .write_bitcode_to_file_handle(m, handle) ⇒ Integer

  Deprecated for LLVMWriteBitcodeToFD.

• .write_bitcode_to_memory_buffer(m) ⇒ FFI::Pointer(MemoryBufferRef)

  Writes a module to a new memory buffer and returns it.

• .x86amx_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .x86fp80_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .x86fp80_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Obtain a 80-bit floating point type (X87) from a context.

• .x86mmx_type ⇒ FFI::Pointer(TypeRef)

  (Not documented).

• .x86mmx_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

  Create a X86 MMX type in a context.

Instance Method Summary

• #for_each_value_subclass(macro) ⇒ Object

Class Method Details

._callback_diagnostic_handler_(diagnostic_info_ref, void) ⇒ FFI::Pointer(DiagnosticInfoRef)

Contexts are execution states for the core LLVM IR system.

Most types are tied to a context instance. Multiple contexts can exist simultaneously. A single context is not thread safe. However, different contexts can execute on different threads simultaneously.

@{

This entry is only for documentation and no real method.

Parameters:

• diagnostic_info_ref (FFI::Pointer(DiagnosticInfoRef))
• void (FFI::Pointer(*Void))

Returns:

• (FFI::Pointer(DiagnosticInfoRef))

# File 'lib/llvm/core_ffi.rb', line 875

callback :diagnostic_handler, [:pointer, :pointer], :pointer

._callback_memory_manager_allocate_code_section_callback_(uint8_t, opaque, size, alignment, section_id, section_name) ⇒ Integer

– Operations on memory managers ————————————-===

This entry is only for documentation and no real method.

Parameters:

• uint8_t (Integer)
• opaque (FFI::Pointer(*Void))
• size (Integer)
• alignment (Integer)
• section_id (Integer)
• section_name (String)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 364

callback :memory_manager_allocate_code_section_callback, [:uchar, :pointer, :ulong, :uint, :uint, :string], :uchar

._callback_memory_manager_allocate_data_section_callback_(uint8_t, opaque, size, alignment, section_id, section_name, is_read_only) ⇒ Integer

(Not documented)

This entry is only for documentation and no real method.

Parameters:

• uint8_t (Integer)
• opaque (FFI::Pointer(*Void))
• size (Integer)
• alignment (Integer)
• section_id (Integer)
• section_name (String)
• is_read_only (Integer)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 380

callback :memory_manager_allocate_data_section_callback, [:uchar, :pointer, :ulong, :uint, :uint, :string, :int], :uchar

._callback_memory_manager_finalize_memory_callback_(bool, opaque, err_msg) ⇒ Integer

(Not documented)

This entry is only for documentation and no real method.

Parameters:

• bool (Integer)
• opaque (FFI::Pointer(*Void))
• err_msg (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 392

callback :memory_manager_finalize_memory_callback, [:int, :pointer, :pointer], :int

._callback_yield_callback_(context_ref, void) ⇒ FFI::Pointer(ContextRef)

(Not documented)

This entry is only for documentation and no real method.

Parameters:

• context_ref (FFI::Pointer(ContextRef))
• void (FFI::Pointer(*Void))

Returns:

• (FFI::Pointer(ContextRef))

# File 'lib/llvm/core_ffi.rb', line 886

callback :yield_callback, [:pointer, :pointer], :pointer

._enum_atomic_ordering_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:atomic_ordering).

Options:

:not_atomic

:unordered

< A load or store which is not atomic

:monotonic

< Lowest level of atomicity, guarantees

somewhat sane results, lock free.

:acquire

< guarantees that if you take all the

operations affecting a specific address,
a consistent ordering exists

:release

< Acquire provides a barrier of the sort

necessary to acquire a lock to access other
memory with normal loads and stores.

:acquire_release

< Release is similar to Acquire, but with

a barrier of the sort necessary to release
a lock.

:sequentially_consistent

< provides both an Acquire and a

Release barrier (for fences and
operations which both read and write
 memory).

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 740

enum :atomic_ordering, [
  :not_atomic, 0,
  :unordered, 1,
  :monotonic, 2,
  :acquire, 4,
  :release, 5,
  :acquire_release, 6,
  :sequentially_consistent, 7
]

._enum_atomic_rmw_bin_op_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:atomic_rmw_bin_op).

Options:

:xchg

:add

< Set the new value and return the one old

:sub

< Add a value and return the old one

:and_

< Subtract a value and return the old one

:nand

< And a value and return the old one

:or_

< Not-And a value and return the old one

:xor

< OR a value and return the old one

:max

< Xor a value and return the old one

:min

< Sets the value if it’s greater than the

original using a signed comparison and return
the old one

:u_max

< Sets the value if it’s Smaller than the

original using a signed comparison and return
the old one

:u_min

< Sets the value if it’s greater than the

original using an unsigned comparison and return
the old one

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 787

enum :atomic_rmw_bin_op, [
  :xchg, 0,
  :add, 1,
  :sub, 2,
  :and_, 3,
  :nand, 4,
  :or_, 5,
  :xor, 6,
  :max, 7,
  :min, 8,
  :u_max, 9,
  :u_min, 10
]

._enum_attribute_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:attribute).

Options:

:z_ext_attribute

:s_ext_attribute

:no_return_attribute

:in_reg_attribute

:struct_ret_attribute

:no_unwind_attribute

:no_alias_attribute

:by_val_attribute

:nest_attribute

:read_none_attribute

:read_only_attribute

:no_inline_attribute

:always_inline_attribute

:optimize_for_size_attribute

:stack_protect_attribute

:stack_protect_req_attribute

:alignment

:no_capture_attribute

:no_red_zone_attribute

:no_implicit_float_attribute

:naked_attribute

:inline_hint_attribute

:stack_alignment

:returns_twice

:uw_table

:non_lazy_bind

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 120

enum :attribute, [
  :z_ext_attribute, 1,
  :s_ext_attribute, 2,
  :no_return_attribute, 4,
  :in_reg_attribute, 8,
  :struct_ret_attribute, 16,
  :no_unwind_attribute, 32,
  :no_alias_attribute, 64,
  :by_val_attribute, 128,
  :nest_attribute, 256,
  :read_none_attribute, 512,
  :read_only_attribute, 1024,
  :no_inline_attribute, 2048,
  :always_inline_attribute, 4096,
  :optimize_for_size_attribute, 8192,
  :stack_protect_attribute, 16384,
  :stack_protect_req_attribute, 32768,
  :alignment, 2031616,
  :no_capture_attribute, 2097152,
  :no_red_zone_attribute, 4194304,
  :no_implicit_float_attribute, 8388608,
  :naked_attribute, 16777216,
  :inline_hint_attribute, 33554432,
  :stack_alignment, 469762048,
  :returns_twice, 536870912,
  :uw_table, 1073741824,
  :non_lazy_bind, 2147483648
]

._enum_byte_ordering_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:byte_ordering).

Options:

:big_endian

:little_endian

Returns:

• (Symbol)

# File 'lib/llvm/target_ffi.rb', line 28

enum :byte_ordering, [
  :big_endian, 0,
  :little_endian, 1
]

._enum_call_conv_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:call_conv).

Options:

:c

:fast

:cold

:web_kit_js

:any_reg

:x86_stdcall

:x86_fastcall

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 550

enum :call_conv, [
  :c, 0,
  :fast, 8,
  :cold, 9,
  :web_kit_js, 12,
  :any_reg, 13,
  :x86_stdcall, 64,
  :x86_fastcall, 65
]

._enum_code_gen_file_type_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:code_gen_file_type).

Options:

:assembly

:object

Returns:

• (Symbol)

# File 'lib/llvm/target_ffi.rb', line 426

enum :code_gen_file_type, [
  :assembly, 0,
  :object, 1
]

._enum_code_gen_opt_level_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:code_gen_opt_level).

Options:

:none

:less

:default

:aggressive

Returns:

• (Symbol)

# File 'lib/llvm/target_ffi.rb', line 352

enum :code_gen_opt_level, [
  :none, 0,
  :less, 1,
  :default, 2,
  :aggressive, 3
]

._enum_code_model_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:code_model).

Options:

:default

:jit_default

:small

:kernel

:medium

:large

Returns:

• (Symbol)

# File 'lib/llvm/target_ffi.rb', line 404

enum :code_model, [
  :default, 0,
  :jit_default, 1,
  :small, 2,
  :kernel, 3,
  :medium, 4,
  :large, 5
]

._enum_diagnostic_severity_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:diagnostic_severity).

Options:

:ds_error

:ds_warning

:ds_remark

:ds_note

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 818

enum :diagnostic_severity, [
  :ds_error, 0,
  :ds_warning, 1,
  :ds_remark, 2,
  :ds_note, 3
]

._enum_dll_storage_class_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:dll_storage_class).

Options:

:default

:dll_import

:dll_export

< Function to be imported from DLL.

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 521

enum :dll_storage_class, [
  :default, 0,
  :dll_import, 1,
  :dll_export, 2
]

._enum_int_predicate_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:int_predicate).

Options:

:eq

:ne

< equal

:ugt

< not equal

:uge

< unsigned greater than

:ult

< unsigned greater or equal

:ule

< unsigned less than

:sgt

< unsigned less or equal

:sge

< signed greater than

:slt

< signed greater or equal

:sle

< signed less than

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 589

enum :int_predicate, [
  :eq, 32,
  :ne, 33,
  :ugt, 34,
  :uge, 35,
  :ult, 36,
  :ule, 37,
  :sgt, 38,
  :sge, 39,
  :slt, 40,
  :sle, 41
]

._enum_landing_pad_clause_ty_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:landing_pad_clause_ty).

Options:

:catch

:filter

< A catch clause

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 675

enum :landing_pad_clause_ty, [
  :catch, 0,
  :filter, 1
]

._enum_linkage_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:linkage).

Options:

:external

:available_externally

< Externally visible function

:link_once_any

:link_once_odr

< Keep one copy of function when linking (inline)

:link_once_odr_auto_hide

< Same, but only replaced by something

equivalent.

:weak_any

< Obsolete

:weak_odr

< Keep one copy of function when linking (weak)

:appending

< Same, but only replaced by something

equivalent.

:internal

< Special purpose, only applies to global arrays

:private

< Rename collisions when linking (static

functions)

:dll_import

< Like Internal, but omit from symbol table

:dll_export

< Obsolete

:external_weak

< Obsolete

:ghost

< ExternalWeak linkage description

:common

< Obsolete

:linker_private

< Tentative definitions

:linker_private_weak

< Like Private, but linker removes.

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 465

enum :linkage, [
  :external, 0,
  :available_externally, 1,
  :link_once_any, 2,
  :link_once_odr, 3,
  :link_once_odr_auto_hide, 4,
  :weak_any, 5,
  :weak_odr, 6,
  :appending, 7,
  :internal, 8,
  :private, 9,
  :dll_import, 10,
  :dll_export, 11,
  :external_weak, 12,
  :ghost, 13,
  :common, 14,
  :linker_private, 15,
  :linker_private_weak, 16
]

._enum_linker_mode_ ⇒ Symbol

This enum is provided for backwards-compatibility only. It has no effect.

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:linker_mode).

Options:

:destroy_source

:preserve_source_removed

This is the default behavior.

Returns:

• (Symbol)

# File 'lib/llvm/linker_ffi.rb', line 28

enum :linker_mode, [
  :destroy_source, 0,
  :preserve_source_removed, 1
]

._enum_opcode_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:opcode).

Options:

:ret

Terminator Instructions

:br

:switch

:indirect_br

:invoke

:unreachable

removed 6 due to API changes

:add

Standard Binary Operators

:f_add

:sub

:f_sub

:mul

:f_mul

:u_div

:s_div

:f_div

:u_rem

:s_rem

:f_rem

:shl

Logical Operators

:l_shr

:a_shr

:and_

:or_

:xor

:alloca

Memory Operators

:load

:store

:get_element_ptr

:trunc

Cast Operators

:z_ext

:s_ext

:fp_to_ui

:fp_to_si

:ui_to_fp

:si_to_fp

:fp_trunc

:fp_ext

:ptr_to_int

:int_to_ptr

:bit_cast

:addr_space_cast

:i_cmp

Other Operators

:f_cmp

:phi

:call

:select

:user_op1

:user_op2

:va_arg

:extract_element

:insert_element

:shuffle_vector

:extract_value

:insert_value

:fence

Atomic operators

:atomic_cmp_xchg

:atomic_rmw

:resume

Exception Handling Operators

:landing_pad

:cleanup_ret

:catch_ret

:catch_pad

:cleanup_pad

:catch_switch

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 286

enum :opcode, [
  :ret, 1,
  :br, 2,
  :switch, 3,
  :indirect_br, 4,
  :invoke, 5,
  :unreachable, 7,
  :add, 8,
  :f_add, 9,
  :sub, 10,
  :f_sub, 11,
  :mul, 12,
  :f_mul, 13,
  :u_div, 14,
  :s_div, 15,
  :f_div, 16,
  :u_rem, 17,
  :s_rem, 18,
  :f_rem, 19,
  :shl, 20,
  :l_shr, 21,
  :a_shr, 22,
  :and_, 23,
  :or_, 24,
  :xor, 25,
  :alloca, 26,
  :load, 27,
  :store, 28,
  :get_element_ptr, 29,
  :trunc, 30,
  :z_ext, 31,
  :s_ext, 32,
  :fp_to_ui, 33,
  :fp_to_si, 34,
  :ui_to_fp, 35,
  :si_to_fp, 36,
  :fp_trunc, 37,
  :fp_ext, 38,
  :ptr_to_int, 39,
  :int_to_ptr, 40,
  :bit_cast, 41,
  :addr_space_cast, 60,
  :i_cmp, 42,
  :f_cmp, 43,
  :phi, 44,
  :call, 45,
  :select, 46,
  :user_op1, 47,
  :user_op2, 48,
  :va_arg, 49,
  :extract_element, 50,
  :insert_element, 51,
  :shuffle_vector, 52,
  :extract_value, 53,
  :insert_value, 54,
  :fence, 55,
  :atomic_cmp_xchg, 56,
  :atomic_rmw, 57,
  :resume, 58,
  :landing_pad, 59,
  :cleanup_ret, 61,
  :catch_ret, 62,
  :catch_pad, 63,
  :cleanup_pad, 64,
  :catch_switch, 65
]

._enum_real_predicate_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:real_predicate).

Options:

:predicate_false

:oeq

< Always false (always folded)

:ogt

< True if ordered and equal

:oge

< True if ordered and greater than

:olt

< True if ordered and greater than or equal

:ole

< True if ordered and less than

:one

< True if ordered and less than or equal

:ord

< True if ordered and operands are unequal

:uno

< True if ordered (no nans)

:ueq

< True if unordered: isnan(X) | isnan(Y)

:ugt

< True if unordered or equal

:uge

< True if unordered or greater than

:ult

< True if unordered, greater than, or equal

:ule

< True if unordered or less than

:une

< True if unordered, less than, or equal

:predicate_true

< True if unordered or not equal

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 643

enum :real_predicate, [
  :predicate_false, 0,
  :oeq, 1,
  :ogt, 2,
  :oge, 3,
  :olt, 4,
  :ole, 5,
  :one, 6,
  :ord, 7,
  :uno, 8,
  :ueq, 9,
  :ugt, 10,
  :uge, 11,
  :ult, 12,
  :ule, 13,
  :une, 14,
  :predicate_true, 15
]

._enum_reloc_mode_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:reloc_mode).

Options:

:default

:static

:pic

:dynamic_no_pic

Returns:

• (Symbol)

# File 'lib/llvm/target_ffi.rb', line 376

enum :reloc_mode, [
  :default, 0,
  :static, 1,
  :pic, 2,
  :dynamic_no_pic, 3
]

._enum_thread_local_mode_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:thread_local_mode).

Options:

:not_thread_local

:general_dynamic_tls_model

:local_dynamic_tls_model

:initial_exec_tls_model

:local_exec_tls_model

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 699

enum :thread_local_mode, [
  :not_thread_local, 0,
  :general_dynamic_tls_model, 1,
  :local_dynamic_tls_model, 2,
  :initial_exec_tls_model, 3,
  :local_exec_tls_model, 4
]

._enum_type_kind_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:type_kind).

Options:

:void

:half

< type with no size

:float

< 16 bit floating point type

:double

< 32 bit floating point type

:x86_fp80

< 64 bit floating point type

:fp128

< 80 bit floating point type (X87)

:ppc_fp128

< 128 bit floating point type (112-bit mantissa)

:label

< 128 bit floating point type (two 64-bits)

:integer

< Labels

:function

< Arbitrary bit width integers

:struct

< Functions

:array

< Structures

:pointer

< Arrays

:vector

< Pointers

:metadata

< SIMD ‘packed’ format, or other vector type

:x86_mmx

< Metadata

:token

< X86 MMX

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 396

enum :type_kind, [
  :void, 0,
  :half, 1,
  :float, 2,
  :double, 3,
  :x86_fp80, 4,
  :fp128, 5,
  :ppc_fp128, 6,
  :label, 7,
  :integer, 8,
  :function, 9,
  :struct, 10,
  :array, 11,
  :pointer, 12,
  :vector, 13,
  :metadata, 14,
  :x86_mmx, 15,
  :token, 16,
  :scalable_vector, 17,
  :bfloat, 18,
  :x86_amx, 19,
]

._enum_verifier_failure_action_ ⇒ Symbol

@{

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:verifier_failure_action).

Options:

:abort_process

:print_message

verifier will print to stderr and abort()

:return_status

verifier will print to stderr and return 1

Returns:

• (Symbol)

# File 'lib/llvm/analysis_ffi.rb', line 33

enum :verifier_failure_action, [
  :abort_process, 0,
  :print_message, 1,
  :return_status, 2
]

._enum_visibility_ ⇒ Symbol

(Not documented)

This entry is only for documentation and no real method. The FFI::Enum can be accessed via #enum_type(:visibility).

Options:

:default

:hidden

< The GV is visible

:protected

< The GV is hidden

Returns:

• (Symbol)

# File 'lib/llvm/core_ffi.rb', line 500

enum :visibility, [
  :default, 0,
  :hidden, 1,
  :protected, 2
]

.abi_alignment_of_type(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 258

attach_function :abi_alignment_of_type, :LLVMABIAlignmentOfType, [OpaqueTargetData, :pointer], :uint

.abi_size_of_type(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 249

attach_function :abi_size_of_type, :LLVMABISizeOfType, [OpaqueTargetData, :pointer], :ulong_long

.add_alias(m, ty, aliasee, name) ⇒ FFI::Pointer(ValueRef)

This group contains function that operate on global alias values.

@{

Parameters:

• m (FFI::Pointer(ModuleRef))
• ty (FFI::Pointer(TypeRef))
• aliasee (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::GlobalAlias

# File 'lib/llvm/core_ffi.rb', line 3542

attach_function :add_alias, :LLVMAddAlias, [:pointer, :pointer, :pointer, :string], :pointer

.add_analysis_passes(t, pm) ⇒ nil

Adds the target-specific analysis passes to the pass manager.

Parameters:

• t (OpaqueTargetMachine)
• pm (FFI::Pointer(PassManagerRef))

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 626

attach_function :add_analysis_passes, :LLVMAddAnalysisPasses, [OpaqueTargetMachine, :pointer], :void

.add_case(switch, on_val, dest) ⇒ nil

Add a case to the switch instruction

Parameters:

• switch (FFI::Pointer(ValueRef))
• on_val (FFI::Pointer(ValueRef))
• dest (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4622

attach_function :add_case, :LLVMAddCase, [:pointer, :pointer, :pointer], :void

.add_clause(landing_pad, clause_val) ⇒ nil

Add a catch or filter clause to the landingpad instruction

Parameters:

• landing_pad (FFI::Pointer(ValueRef))
• clause_val (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4640

attach_function :add_clause, :LLVMAddClause, [:pointer, :pointer], :void

.add_destination(indirect_br, dest) ⇒ nil

Add a destination to the indirectbr instruction

Parameters:

• indirect_br (FFI::Pointer(ValueRef))
• dest (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4631

attach_function :add_destination, :LLVMAddDestination, [:pointer, :pointer], :void

.add_function(m, name, function_ty) ⇒ FFI::Pointer(ValueRef)

Add a function to a module under a specified name.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)
• function_ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Functionllvm::Function::Create()

# File 'lib/llvm/core_ffi.rb', line 1181

attach_function :add_function, :LLVMAddFunction, [:pointer, :string, :pointer], :pointer

.add_global(m, ty, name) ⇒ FFI::Pointer(ValueRef)

This group contains functions that operate on global variable values.

@{

Parameters:

• m (FFI::Pointer(ModuleRef))
• ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::GlobalVariable

# File 'lib/llvm/core_ffi.rb', line 3380

attach_function :add_global, :LLVMAddGlobal, [:pointer, :pointer, :string], :pointer

.add_global_in_address_space(m, ty, name, address_space) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))
• ty (FFI::Pointer(TypeRef))
• name (String)
• address_space (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3391

attach_function :add_global_in_address_space, :LLVMAddGlobalInAddressSpace, [:pointer, :pointer, :string, :uint], :pointer

.add_global_mapping(ee, global, addr) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• global (FFI::Pointer(ValueRef))
• addr (FFI::Pointer(*Void))

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 322

attach_function :add_global_mapping, :LLVMAddGlobalMapping, [OpaqueExecutionEngine, :pointer, :pointer], :void

.add_incoming(phi_node, incoming_values, incoming_blocks, count) ⇒ nil

Add an incoming value to the end of a PHI list.

Parameters:

• phi_node (FFI::Pointer(ValueRef))
• incoming_values (FFI::Pointer(*ValueRef))
• incoming_blocks (FFI::Pointer(*BasicBlockRef))
• count (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4358

attach_function :add_incoming, :LLVMAddIncoming, [:pointer, :pointer, :pointer, :uint], :void

.add_module(ee, m) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• m (FFI::Pointer(ModuleRef))

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 266

attach_function :add_module, :LLVMAddModule, [OpaqueExecutionEngine, :pointer], :void

.add_named_metadata_operand(m, name, val) ⇒ nil

Add an operand to named metadata.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)
• val (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Modulellvm::Module::getNamedMetadata()
• llvmllvm::MDNodellvm::MDNode::addOperand()

# File 'lib/llvm/core_ffi.rb', line 1169

attach_function :add_named_metadata_operand, :LLVMAddNamedMetadataOperand, [:pointer, :string, :pointer], :void

.add_symbol(symbol_name, symbol_value) ⇒ nil

(Not documented)

Parameters:

• symbol_name (String)
• symbol_value (FFI::Pointer(*Void))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 57

attach_function :add_symbol, :LLVMAddSymbol, [:string, :pointer], :void

.add_target_dependent_function_attr(fn, a, v) ⇒ nil

Add a target-dependent attribute to a function

Parameters:

• fn (FFI::Pointer(ValueRef))
• a (String)
• v (String)

Returns:

• (nil)

See Also:

• llvmllvm::AttrBuilderllvm::AttrBuilder::addAttribute()

# File 'lib/llvm/core_ffi.rb', line 3642

attach_function :add_target_dependent_function_attr, :LLVMAddTargetDependentFunctionAttr, [:pointer, :string, :string], :void

.add_target_library_info(tli, pm) ⇒ nil

(Not documented)

Parameters:

• tli (OpaqueTargetLibraryInfotData)
• pm (FFI::Pointer(PassManagerRef))

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 153

attach_function :add_target_library_info, :LLVMAddTargetLibraryInfo, [OpaqueTargetLibraryInfotData, :pointer], :void

.align_of(ty) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2921

attach_function :align_of, :LLVMAlignOf, [:pointer], :pointer

.append_basic_block(fn, name) ⇒ FFI::Pointer(BasicBlockRef)

Append a basic block to the end of a function using the global context.

Parameters:

• fn (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::Create()

# File 'lib/llvm/core_ffi.rb', line 3984

attach_function :append_basic_block, :LLVMAppendBasicBlock, [:pointer, :string], :pointer

.append_basic_block_in_context(c, fn, name) ⇒ FFI::Pointer(BasicBlockRef)

Append a basic block to the end of a function.

Parameters:

• c (FFI::Pointer(ContextRef))
• fn (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::Create()

# File 'lib/llvm/core_ffi.rb', line 3972

attach_function :append_basic_block_in_context, :LLVMAppendBasicBlockInContext, [:pointer, :pointer, :string], :pointer

.array_type(element_type, element_count) ⇒ FFI::Pointer(TypeRef)

Create a fixed size array type that refers to a specific type.

The created type will exist in the context that its element type exists in.

Parameters:

• element_type (FFI::Pointer(TypeRef))
• element_count (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::ArrayTypellvm::ArrayType::get()

# File 'lib/llvm/core_ffi.rb', line 1678

attach_function :array_type, :LLVMArrayType, [:pointer, :uint], :pointer

.attach_function(name, *_) ⇒ Object

# File 'lib/llvm/core_ffi.rb', line 9

def self.attach_function(name, *_)
  begin; super; rescue FFI::NotFoundError => e
    (class << self; self; end).class_eval { define_method(name) { |*_| raise e } }
  end
end

.basic_block_as_value(bb) ⇒ FFI::Pointer(ValueRef)

Convert a basic block instance to a value type.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3845

attach_function :basic_block_as_value, :LLVMBasicBlockAsValue, [:pointer], :pointer

.block_address(f, bb) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• f (FFI::Pointer(ValueRef))
• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3231

attach_function :block_address, :LLVMBlockAddress, [:pointer, :pointer], :pointer

.build_a_shr(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4891

attach_function :build_a_shr, :LLVMBuildAShr, [:pointer, :pointer, :pointer, :string], :pointer

.build_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

Arithmetic

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4660

attach_function :build_add, :LLVMBuildAdd, [:pointer, :pointer, :pointer, :string], :pointer

.build_addr_space_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5289

attach_function :build_addr_space_cast, :LLVMBuildAddrSpaceCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_aggregate_ret(builder_ref, ret_vals, n) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ret_vals (FFI::Pointer(*ValueRef))
• n (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4528

attach_function :build_aggregate_ret, :LLVMBuildAggregateRet, [:pointer, :pointer, :uint], :pointer

.build_alloca(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5017

attach_function :build_alloca, :LLVMBuildAlloca, [:pointer, :pointer, :string], :pointer

.build_and(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4902

attach_function :build_and, :LLVMBuildAnd, [:pointer, :pointer, :pointer, :string], :pointer

.build_array_alloca(builder_ref, ty, val, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5028

attach_function :build_array_alloca, :LLVMBuildArrayAlloca, [:pointer, :pointer, :pointer, :string], :pointer

.build_array_malloc(builder_ref, ty, val, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5007

attach_function :build_array_malloc, :LLVMBuildArrayMalloc, [:pointer, :pointer, :pointer, :string], :pointer

.build_atomic_rmw(b, op, ptr, val, ordering, single_thread) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• op (Symbol from _enum_atomic_rmw_bin_op_)
• ptr (FFI::Pointer(ValueRef))
• val (FFI::Pointer(ValueRef))
• ordering (Symbol from _enum_atomic_ordering_)
• single_thread (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5549

attach_function :build_atomic_rmw, :LLVMBuildAtomicRMW, [:pointer, :atomic_rmw_bin_op, :pointer, :pointer, :atomic_ordering, :int], :pointer

.build_bin_op(b, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• op (Symbol from _enum_opcode_)
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4936

attach_function :build_bin_op, :LLVMBuildBinOp, [:pointer, :opcode, :pointer, :pointer, :string], :pointer

.build_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5278

attach_function :build_bit_cast, :LLVMBuildBitCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_br(builder_ref, dest) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• dest (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4537

attach_function :build_br, :LLVMBuildBr, [:pointer, :pointer], :pointer

.build_call(builder_ref, fn, args, num_args, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• fn (FFI::Pointer(ValueRef))
• args (FFI::Pointer(*ValueRef))
• num_args (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5413

attach_function :build_call, :LLVMBuildCall, [:pointer, :pointer, :pointer, :uint, :string], :pointer

.build_cast(b, op, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• op (Symbol from _enum_opcode_)
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5334

attach_function :build_cast, :LLVMBuildCast, [:pointer, :opcode, :pointer, :pointer, :string], :pointer

.build_cond_br(builder_ref, if_, then_, else_) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• if_ (FFI::Pointer(ValueRef))
• then_ (FFI::Pointer(BasicBlockRef))
• else_ (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4548

attach_function :build_cond_br, :LLVMBuildCondBr, [:pointer, :pointer, :pointer, :pointer], :pointer

.build_exact_s_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4814

attach_function :build_exact_s_div, :LLVMBuildExactSDiv, [:pointer, :pointer, :pointer, :string], :pointer

.build_extract_element(builder_ref, vec_val, index, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• vec_val (FFI::Pointer(ValueRef))
• index (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5447

attach_function :build_extract_element, :LLVMBuildExtractElement, [:pointer, :pointer, :pointer, :string], :pointer

.build_extract_value(builder_ref, agg_val, index, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• agg_val (FFI::Pointer(ValueRef))
• index (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5482

attach_function :build_extract_value, :LLVMBuildExtractValue, [:pointer, :pointer, :uint, :string], :pointer

.build_f_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4693

attach_function :build_f_add, :LLVMBuildFAdd, [:pointer, :pointer, :pointer, :string], :pointer

.build_f_cmp(builder_ref, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• op (Symbol from _enum_real_predicate_)
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5391

attach_function :build_f_cmp, :LLVMBuildFCmp, [:pointer, :real_predicate, :pointer, :pointer, :string], :pointer

.build_f_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4825

attach_function :build_f_div, :LLVMBuildFDiv, [:pointer, :pointer, :pointer, :string], :pointer

.build_f_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4781

attach_function :build_f_mul, :LLVMBuildFMul, [:pointer, :pointer, :pointer, :string], :pointer

.build_f_neg(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4976

attach_function :build_f_neg, :LLVMBuildFNeg, [:pointer, :pointer, :string], :pointer

.build_f_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4858

attach_function :build_f_rem, :LLVMBuildFRem, [:pointer, :pointer, :pointer, :string], :pointer

.build_f_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4737

attach_function :build_f_sub, :LLVMBuildFSub, [:pointer, :pointer, :pointer, :string], :pointer

.build_fence(b, ordering, single_thread, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• ordering (Symbol from _enum_atomic_ordering_)
• single_thread (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5536

attach_function :build_fence, :LLVMBuildFence, [:pointer, :atomic_ordering, :int, :string], :pointer

.build_fp_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5367

attach_function :build_fp_cast, :LLVMBuildFPCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_fp_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5245

attach_function :build_fp_ext, :LLVMBuildFPExt, [:pointer, :pointer, :pointer, :string], :pointer

.build_fp_to_si(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5201

attach_function :build_fp_to_si, :LLVMBuildFPToSI, [:pointer, :pointer, :pointer, :string], :pointer

.build_fp_to_ui(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5190

attach_function :build_fp_to_ui, :LLVMBuildFPToUI, [:pointer, :pointer, :pointer, :string], :pointer

.build_fp_trunc(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5234

attach_function :build_fp_trunc, :LLVMBuildFPTrunc, [:pointer, :pointer, :pointer, :string], :pointer

.build_free(builder_ref, pointer_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• pointer_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5037

attach_function :build_free, :LLVMBuildFree, [:pointer, :pointer], :pointer

.build_gep(b, pointer, indices, num_indices, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• pointer (FFI::Pointer(ValueRef))
• indices (FFI::Pointer(*ValueRef))
• num_indices (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5069

attach_function :build_gep, :LLVMBuildGEP, [:pointer, :pointer, :pointer, :uint, :string], :pointer

.build_global_string(b, str, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• str (String)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5102

attach_function :build_global_string, :LLVMBuildGlobalString, [:pointer, :string, :string], :pointer

.build_global_string_ptr(b, str, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• str (String)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5112

attach_function :build_global_string_ptr, :LLVMBuildGlobalStringPtr, [:pointer, :string, :string], :pointer

.build_i_cmp(builder_ref, op, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

Comparisons

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• op (Symbol from _enum_int_predicate_)
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5379

attach_function :build_i_cmp, :LLVMBuildICmp, [:pointer, :int_predicate, :pointer, :pointer, :string], :pointer

.build_in_bounds_gep(b, pointer, indices, num_indices, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• pointer (FFI::Pointer(ValueRef))
• indices (FFI::Pointer(*ValueRef))
• num_indices (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5081

attach_function :build_in_bounds_gep, :LLVMBuildInBoundsGEP, [:pointer, :pointer, :pointer, :uint, :string], :pointer

.build_indirect_br(b, addr, num_dests) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• addr (FFI::Pointer(ValueRef))
• num_dests (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4569

attach_function :build_indirect_br, :LLVMBuildIndirectBr, [:pointer, :pointer, :uint], :pointer

.build_insert_element(builder_ref, vec_val, elt_val, index, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• vec_val (FFI::Pointer(ValueRef))
• elt_val (FFI::Pointer(ValueRef))
• index (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5459

attach_function :build_insert_element, :LLVMBuildInsertElement, [:pointer, :pointer, :pointer, :pointer, :string], :pointer

.build_insert_value(builder_ref, agg_val, elt_val, index, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• agg_val (FFI::Pointer(ValueRef))
• elt_val (FFI::Pointer(ValueRef))
• index (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5494

attach_function :build_insert_value, :LLVMBuildInsertValue, [:pointer, :pointer, :pointer, :uint, :string], :pointer

.build_int_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5356

attach_function :build_int_cast, :LLVMBuildIntCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_int_to_ptr(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5267

attach_function :build_int_to_ptr, :LLVMBuildIntToPtr, [:pointer, :pointer, :pointer, :string], :pointer

.build_invoke(builder_ref, fn, args, num_args, then_, catch, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• fn (FFI::Pointer(ValueRef))
• args (FFI::Pointer(*ValueRef))
• num_args (Integer)
• then_ (FFI::Pointer(BasicBlockRef))
• catch (FFI::Pointer(BasicBlockRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4583

attach_function :build_invoke, :LLVMBuildInvoke, [:pointer, :pointer, :pointer, :uint, :pointer, :pointer, :string], :pointer

.build_is_not_null(builder_ref, val, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5514

attach_function :build_is_not_null, :LLVMBuildIsNotNull, [:pointer, :pointer, :string], :pointer

.build_is_null(builder_ref, val, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5504

attach_function :build_is_null, :LLVMBuildIsNull, [:pointer, :pointer, :string], :pointer

.build_l_shr(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4880

attach_function :build_l_shr, :LLVMBuildLShr, [:pointer, :pointer, :pointer, :string], :pointer

.build_landing_pad(b, ty, pers_fn, num_clauses, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• pers_fn (FFI::Pointer(ValueRef))
• num_clauses (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4595

attach_function :build_landing_pad, :LLVMBuildLandingPad, [:pointer, :pointer, :pointer, :uint, :string], :pointer

.build_load(builder_ref, pointer_val, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• pointer_val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5047

attach_function :build_load, :LLVMBuildLoad, [:pointer, :pointer, :string], :pointer

.build_malloc(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

Memory

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4996

attach_function :build_malloc, :LLVMBuildMalloc, [:pointer, :pointer, :string], :pointer

.build_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4748

attach_function :build_mul, :LLVMBuildMul, [:pointer, :pointer, :pointer, :string], :pointer

.build_neg(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4946

attach_function :build_neg, :LLVMBuildNeg, [:pointer, :pointer, :string], :pointer

.build_not(builder_ref, v, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4986

attach_function :build_not, :LLVMBuildNot, [:pointer, :pointer, :string], :pointer

.build_nsw_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4671

attach_function :build_nsw_add, :LLVMBuildNSWAdd, [:pointer, :pointer, :pointer, :string], :pointer

.build_nsw_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4759

attach_function :build_nsw_mul, :LLVMBuildNSWMul, [:pointer, :pointer, :pointer, :string], :pointer

.build_nsw_neg(b, v, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4956

attach_function :build_nsw_neg, :LLVMBuildNSWNeg, [:pointer, :pointer, :string], :pointer

.build_nsw_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4715

attach_function :build_nsw_sub, :LLVMBuildNSWSub, [:pointer, :pointer, :pointer, :string], :pointer

.build_nuw_add(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4682

attach_function :build_nuw_add, :LLVMBuildNUWAdd, [:pointer, :pointer, :pointer, :string], :pointer

.build_nuw_mul(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4770

attach_function :build_nuw_mul, :LLVMBuildNUWMul, [:pointer, :pointer, :pointer, :string], :pointer

.build_nuw_neg(b, v, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4966

attach_function :build_nuw_neg, :LLVMBuildNUWNeg, [:pointer, :pointer, :string], :pointer

.build_nuw_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4726

attach_function :build_nuw_sub, :LLVMBuildNUWSub, [:pointer, :pointer, :pointer, :string], :pointer

.build_or(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4913

attach_function :build_or, :LLVMBuildOr, [:pointer, :pointer, :pointer, :string], :pointer

.build_phi(builder_ref, ty, name) ⇒ FFI::Pointer(ValueRef)

Miscellaneous instructions

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5401

attach_function :build_phi, :LLVMBuildPhi, [:pointer, :pointer, :string], :pointer

.build_pointer_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5345

attach_function :build_pointer_cast, :LLVMBuildPointerCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_ptr_diff(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5525

attach_function :build_ptr_diff, :LLVMBuildPtrDiff, [:pointer, :pointer, :pointer, :string], :pointer

.build_ptr_to_int(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5256

attach_function :build_ptr_to_int, :LLVMBuildPtrToInt, [:pointer, :pointer, :pointer, :string], :pointer

.build_resume(b, exn) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• exn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4604

attach_function :build_resume, :LLVMBuildResume, [:pointer, :pointer], :pointer

.build_ret(builder_ref, v) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4518

attach_function :build_ret, :LLVMBuildRet, [:pointer, :pointer], :pointer

.build_ret_void(builder_ref) ⇒ FFI::Pointer(ValueRef)

Terminators

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4509

attach_function :build_ret_void, :LLVMBuildRetVoid, [:pointer], :pointer

.build_s_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4803

attach_function :build_s_div, :LLVMBuildSDiv, [:pointer, :pointer, :pointer, :string], :pointer

.build_s_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5179

attach_function :build_s_ext, :LLVMBuildSExt, [:pointer, :pointer, :pointer, :string], :pointer

.build_s_ext_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5311

attach_function :build_s_ext_or_bit_cast, :LLVMBuildSExtOrBitCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_s_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4847

attach_function :build_s_rem, :LLVMBuildSRem, [:pointer, :pointer, :pointer, :string], :pointer

.build_select(builder_ref, if_, then_, else_, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• if_ (FFI::Pointer(ValueRef))
• then_ (FFI::Pointer(ValueRef))
• else_ (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5425

attach_function :build_select, :LLVMBuildSelect, [:pointer, :pointer, :pointer, :pointer, :string], :pointer

.build_shl(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4869

attach_function :build_shl, :LLVMBuildShl, [:pointer, :pointer, :pointer, :string], :pointer

.build_shuffle_vector(builder_ref, v1, v2, mask, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v1 (FFI::Pointer(ValueRef))
• v2 (FFI::Pointer(ValueRef))
• mask (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5471

attach_function :build_shuffle_vector, :LLVMBuildShuffleVector, [:pointer, :pointer, :pointer, :pointer, :string], :pointer

.build_si_to_fp(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5223

attach_function :build_si_to_fp, :LLVMBuildSIToFP, [:pointer, :pointer, :pointer, :string], :pointer

.build_store(builder_ref, val, ptr) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• ptr (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5057

attach_function :build_store, :LLVMBuildStore, [:pointer, :pointer, :pointer], :pointer

.build_struct_gep(b, pointer, idx, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• b (FFI::Pointer(BuilderRef))
• pointer (FFI::Pointer(ValueRef))
• idx (Integer)
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5092

attach_function :build_struct_gep, :LLVMBuildStructGEP, [:pointer, :pointer, :uint, :string], :pointer

.build_sub(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4704

attach_function :build_sub, :LLVMBuildSub, [:pointer, :pointer, :pointer, :string], :pointer

.build_switch(builder_ref, v, else_, num_cases) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• v (FFI::Pointer(ValueRef))
• else_ (FFI::Pointer(BasicBlockRef))
• num_cases (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4559

attach_function :build_switch, :LLVMBuildSwitch, [:pointer, :pointer, :pointer, :uint], :pointer

.build_trunc(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

Casts

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5157

attach_function :build_trunc, :LLVMBuildTrunc, [:pointer, :pointer, :pointer, :string], :pointer

.build_trunc_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5322

attach_function :build_trunc_or_bit_cast, :LLVMBuildTruncOrBitCast, [:pointer, :pointer, :pointer, :string], :pointer

.build_u_div(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4792

attach_function :build_u_div, :LLVMBuildUDiv, [:pointer, :pointer, :pointer, :string], :pointer

.build_u_rem(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4836

attach_function :build_u_rem, :LLVMBuildURem, [:pointer, :pointer, :pointer, :string], :pointer

.build_ui_to_fp(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5212

attach_function :build_ui_to_fp, :LLVMBuildUIToFP, [:pointer, :pointer, :pointer, :string], :pointer

.build_unreachable(builder_ref) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4612

attach_function :build_unreachable, :LLVMBuildUnreachable, [:pointer], :pointer

.build_va_arg(builder_ref, list, ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• list (FFI::Pointer(ValueRef))
• ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5436

attach_function :build_va_arg, :LLVMBuildVAArg, [:pointer, :pointer, :pointer, :string], :pointer

.build_xor(builder_ref, lhs, rhs, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• lhs (FFI::Pointer(ValueRef))
• rhs (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4924

attach_function :build_xor, :LLVMBuildXor, [:pointer, :pointer, :pointer, :string], :pointer

.build_z_ext(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5168

attach_function :build_z_ext, :LLVMBuildZExt, [:pointer, :pointer, :pointer, :string], :pointer

.build_z_ext_or_bit_cast(builder_ref, val, dest_ty, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder_ref (FFI::Pointer(BuilderRef))
• val (FFI::Pointer(ValueRef))
• dest_ty (FFI::Pointer(TypeRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 5300

attach_function :build_z_ext_or_bit_cast, :LLVMBuildZExtOrBitCast, [:pointer, :pointer, :pointer, :string], :pointer

.byte_order(td) ⇒ Symbol from _enum_byte_ordering_

(Not documented)

Parameters:

• td (OpaqueTargetData)

Returns:

• (Symbol from _enum_byte_ordering_)

# File 'lib/llvm/target_ffi.rb', line 169

attach_function :byte_order, :LLVMByteOrder, [OpaqueTargetData], :byte_ordering

.call_frame_alignment_of_type(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 267

attach_function :call_frame_alignment_of_type, :LLVMCallFrameAlignmentOfType, [OpaqueTargetData, :pointer], :uint

.clear_insertion_position(builder) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4448

attach_function :clear_insertion_position, :LLVMClearInsertionPosition, [:pointer], :void

.clone_module(m) ⇒ FFI::Pointer(ModuleRef)

Return an exact copy of the specified module.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ModuleRef))

# File 'lib/llvm/core_ffi.rb', line 1010

attach_function :clone_module, :LLVMCloneModule, [:pointer], :pointer

.const_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2978

attach_function :const_add, :LLVMConstAdd, [:pointer, :pointer], :pointer

.const_addr_space_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3153

attach_function :const_addr_space_cast, :LLVMConstAddrSpaceCast, [:pointer, :pointer], :pointer

.const_all_ones(ty) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value referring to the instance of a type consisting of all ones.

This is only valid for integer types.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Constantllvm::Constant::getAllOnesValue()

# File 'lib/llvm/core_ffi.rb', line 2623

attach_function :const_all_ones, :LLVMConstAllOnes, [:pointer], :pointer

.const_array(element_ty, constant_vals, length) ⇒ FFI::Pointer(ValueRef)

Create a ConstantArray from values.

Parameters:

• element_ty (FFI::Pointer(TypeRef))
• constant_vals (FFI::Pointer(*ValueRef))
• length (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantArrayllvm::ConstantArray::get()

# File 'lib/llvm/core_ffi.rb', line 2865

attach_function :const_array, :LLVMConstArray, [:pointer, :pointer, :uint], :pointer

.const_bit_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3144

attach_function :const_bit_cast, :LLVMConstBitCast, [:pointer, :pointer], :pointer

.const_extract_element(vector_constant, index_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• vector_constant (FFI::Pointer(ValueRef))
• index_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3190

attach_function :const_extract_element, :LLVMConstExtractElement, [:pointer, :pointer], :pointer

.const_f_cmp(predicate, lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• predicate (Symbol from _enum_real_predicate_)
• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3079

attach_function :const_f_cmp, :LLVMConstFCmp, [:real_predicate, :pointer, :pointer], :pointer

.const_f_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2961

attach_function :const_f_neg, :LLVMConstFNeg, [:pointer], :pointer

.const_gep(constant_val, constant_indices, num_indices) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• constant_indices (FFI::Pointer(*ValueRef))
• num_indices (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3098

attach_function :const_gep, :LLVMConstGEP, [:pointer, :pointer, :uint], :pointer

.const_i_cmp(predicate, lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• predicate (Symbol from _enum_int_predicate_)
• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3069

attach_function :const_i_cmp, :LLVMConstICmp, [:int_predicate, :pointer, :pointer], :pointer

.const_in_bounds_gep(constant_val, constant_indices, num_indices) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• constant_indices (FFI::Pointer(*ValueRef))
• num_indices (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3108

attach_function :const_in_bounds_gep, :LLVMConstInBoundsGEP, [:pointer, :pointer, :uint], :pointer

.const_inline_asm(ty, asm_string, constraints, has_side_effects, is_align_stack) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• ty (FFI::Pointer(TypeRef))
• asm_string (String)
• constraints (String)
• has_side_effects (Integer)
• is_align_stack (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3222

attach_function :const_inline_asm, :LLVMConstInlineAsm, [:pointer, :string, :string, :int, :int], :pointer

.const_insert_element(vector_constant, element_value_constant, index_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• vector_constant (FFI::Pointer(ValueRef))
• element_value_constant (FFI::Pointer(ValueRef))
• index_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3200

attach_function :const_insert_element, :LLVMConstInsertElement, [:pointer, :pointer, :pointer], :pointer

.const_int(int_ty, n, sign_extend) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value for an integer type.

The returned value corresponds to a llvm::ConstantInt.

Parameters:

• IntTy —

  Integer type to obtain value of.

• N —

  The value the returned instance should refer to.

• SignExtend —

  Whether to sign extend the produced value.

• int_ty (FFI::Pointer(TypeRef))
• n (Integer)
• sign_extend (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::get()

# File 'lib/llvm/core_ffi.rb', line 2670

attach_function :const_int, :LLVMConstInt, [:pointer, :ulong_long, :int], :pointer

.const_int_get_s_ext_value(constant_val) ⇒ Integer

Obtain the sign extended value for an integer constant value.

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::getSExtValue()

# File 'lib/llvm/core_ffi.rb', line 2763

attach_function :const_int_get_s_ext_value, :LLVMConstIntGetSExtValue, [:pointer], :long_long

.const_int_get_z_ext_value(constant_val) ⇒ Integer

Obtain the zero extended value for an integer constant value.

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::getZExtValue()

# File 'lib/llvm/core_ffi.rb', line 2753

attach_function :const_int_get_z_ext_value, :LLVMConstIntGetZExtValue, [:pointer], :ulong_long

.const_int_of_arbitrary_precision(int_ty, num_words, words) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value for an integer of arbitrary precision.

Parameters:

• int_ty (FFI::Pointer(TypeRef))
• num_words (Integer)
• words (FFI::Pointer(*U_long))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::get()

# File 'lib/llvm/core_ffi.rb', line 2682

attach_function :const_int_of_arbitrary_precision, :LLVMConstIntOfArbitraryPrecision, [:pointer, :uint, :pointer], :pointer

.const_int_of_string(int_ty, text, radix) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value for an integer parsed from a string.

A similar API, LLVMConstIntOfStringAndSize is also available. If the string’s length is available, it is preferred to call that function instead.

Parameters:

• int_ty (FFI::Pointer(TypeRef))
• text (String)
• radix (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::get()

# File 'lib/llvm/core_ffi.rb', line 2698

attach_function :const_int_of_string, :LLVMConstIntOfString, [:pointer, :string, :uchar], :pointer

.const_int_of_string_and_size(int_ty, text, s_len, radix) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value for an integer parsed from a string with specified length.

Parameters:

• int_ty (FFI::Pointer(TypeRef))
• text (String)
• s_len (Integer)
• radix (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantIntllvm::ConstantInt::get()

# File 'lib/llvm/core_ffi.rb', line 2712

attach_function :const_int_of_string_and_size, :LLVMConstIntOfStringAndSize, [:pointer, :string, :uint, :uchar], :pointer

.const_int_to_ptr(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3135

attach_function :const_int_to_ptr, :LLVMConstIntToPtr, [:pointer, :pointer], :pointer

.const_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3032

attach_function :const_mul, :LLVMConstMul, [:pointer, :pointer], :pointer

.const_named_struct(struct_ty, constant_vals, count) ⇒ FFI::Pointer(ValueRef)

Create a non-anonymous ConstantStruct from values.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))
• constant_vals (FFI::Pointer(*ValueRef))
• count (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantStructllvm::ConstantStruct::get()

# File 'lib/llvm/core_ffi.rb', line 2877

attach_function :const_named_struct, :LLVMConstNamedStruct, [:pointer, :pointer, :uint], :pointer

.const_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2937

attach_function :const_neg, :LLVMConstNeg, [:pointer], :pointer

.const_not(constant_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2969

attach_function :const_not, :LLVMConstNot, [:pointer], :pointer

.const_nsw_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2987

attach_function :const_nsw_add, :LLVMConstNSWAdd, [:pointer, :pointer], :pointer

.const_nsw_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3041

attach_function :const_nsw_mul, :LLVMConstNSWMul, [:pointer, :pointer], :pointer

.const_nsw_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2945

attach_function :const_nsw_neg, :LLVMConstNSWNeg, [:pointer], :pointer

.const_nsw_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3014

attach_function :const_nsw_sub, :LLVMConstNSWSub, [:pointer, :pointer], :pointer

.const_null(ty) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value referring to the null instance of a type.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Constantllvm::Constant::getNullValue()

# File 'lib/llvm/core_ffi.rb', line 2610

attach_function :const_null, :LLVMConstNull, [:pointer], :pointer

.const_nuw_add(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2996

attach_function :const_nuw_add, :LLVMConstNUWAdd, [:pointer, :pointer], :pointer

.const_nuw_mul(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3050

attach_function :const_nuw_mul, :LLVMConstNUWMul, [:pointer, :pointer], :pointer

.const_nuw_neg(constant_val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2953

attach_function :const_nuw_neg, :LLVMConstNUWNeg, [:pointer], :pointer

.const_nuw_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3023

attach_function :const_nuw_sub, :LLVMConstNUWSub, [:pointer, :pointer], :pointer

.const_pointer_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3171

attach_function :const_pointer_cast, :LLVMConstPointerCast, [:pointer, :pointer], :pointer

.const_pointer_null(ty) ⇒ FFI::Pointer(ValueRef)

Obtain a constant that is a constant pointer pointing to NULL for a specified type.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2652

attach_function :const_pointer_null, :LLVMConstPointerNull, [:pointer], :pointer

.const_ptr_to_int(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3126

attach_function :const_ptr_to_int, :LLVMConstPtrToInt, [:pointer, :pointer], :pointer

.const_real(real_ty, n) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value referring to a double floating point value.

Parameters:

• real_ty (FFI::Pointer(TypeRef))
• n (Float)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2721

attach_function :const_real, :LLVMConstReal, [:pointer, :double], :pointer

.const_real_get_double(constant_val, loses_info) ⇒ Float

Obtain the double value for an floating point constant value. losesInfo indicates if some precision was lost in the conversion.

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• loses_info (FFI::Pointer(*Bool))

Returns:

• (Float)

See Also:

• llvmllvm::ConstantFPllvm::ConstantFP::getDoubleValue

# File 'lib/llvm/core_ffi.rb', line 2775

attach_function :const_real_get_double, :LLVMConstRealGetDouble, [:pointer, :pointer], :double

.const_real_of_string(real_ty, text) ⇒ FFI::Pointer(ValueRef)

Obtain a constant for a floating point value parsed from a string.

A similar API, LLVMConstRealOfStringAndSize is also available. It should be used if the input string’s length is known.

Parameters:

• real_ty (FFI::Pointer(TypeRef))
• text (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2733

attach_function :const_real_of_string, :LLVMConstRealOfString, [:pointer, :string], :pointer

.const_real_of_string_and_size(real_ty, text, s_len) ⇒ FFI::Pointer(ValueRef)

Obtain a constant for a floating point value parsed from a string.

Parameters:

• real_ty (FFI::Pointer(TypeRef))
• text (String)
• s_len (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2743

attach_function :const_real_of_string_and_size, :LLVMConstRealOfStringAndSize, [:pointer, :string, :uint], :pointer

.const_select(constant_condition, constant_if_true, constant_if_false) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_condition (FFI::Pointer(ValueRef))
• constant_if_true (FFI::Pointer(ValueRef))
• constant_if_false (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3181

attach_function :const_select, :LLVMConstSelect, [:pointer, :pointer, :pointer], :pointer

.const_shl(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3088

attach_function :const_shl, :LLVMConstShl, [:pointer, :pointer], :pointer

.const_shuffle_vector(vector_a_constant, vector_b_constant, mask_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• vector_a_constant (FFI::Pointer(ValueRef))
• vector_b_constant (FFI::Pointer(ValueRef))
• mask_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3210

attach_function :const_shuffle_vector, :LLVMConstShuffleVector, [:pointer, :pointer, :pointer], :pointer

.const_string(str, length, dont_null_terminate) ⇒ FFI::Pointer(ValueRef)

Create a ConstantDataSequential with string content in the global context.

This is the same as LLVMConstStringInContext except it operates on the global context.

Parameters:

• str (String)
• length (Integer)
• dont_null_terminate (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• LLVMConstStringInContext()
• llvmllvm::ConstantDataArrayllvm::ConstantDataArray::getString()

# File 'lib/llvm/core_ffi.rb', line 2804

attach_function :const_string, :LLVMConstString, [:string, :uint, :int], :pointer

.const_string_in_context(c, str, length, dont_null_terminate) ⇒ FFI::Pointer(ValueRef)

Create a ConstantDataSequential and initialize it with a string.

Parameters:

• c (FFI::Pointer(ContextRef))
• str (String)
• length (Integer)
• dont_null_terminate (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantDataArrayllvm::ConstantDataArray::getString()

# File 'lib/llvm/core_ffi.rb', line 2788

attach_function :const_string_in_context, :LLVMConstStringInContext, [:pointer, :string, :uint, :int], :pointer

.const_struct(constant_vals, count, packed) ⇒ FFI::Pointer(ValueRef)

Create a ConstantStruct in the global Context.

This is the same as LLVMConstStructInContext except it operates on the global Context.

Parameters:

• constant_vals (FFI::Pointer(*ValueRef))
• count (Integer)
• packed (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• LLVMConstStructInContext()

# File 'lib/llvm/core_ffi.rb', line 2853

attach_function :const_struct, :LLVMConstStruct, [:pointer, :uint, :int], :pointer

.const_struct_in_context(c, constant_vals, count, packed) ⇒ FFI::Pointer(ValueRef)

Create an anonymous ConstantStruct with the specified values.

Parameters:

• c (FFI::Pointer(ContextRef))
• constant_vals (FFI::Pointer(*ValueRef))
• count (Integer)
• packed (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantStructllvm::ConstantStruct::getAnon()

# File 'lib/llvm/core_ffi.rb', line 2838

attach_function :const_struct_in_context, :LLVMConstStructInContext, [:pointer, :pointer, :uint, :int], :pointer

.const_sub(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3005

attach_function :const_sub, :LLVMConstSub, [:pointer, :pointer], :pointer

.const_trunc(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3117

attach_function :const_trunc, :LLVMConstTrunc, [:pointer, :pointer], :pointer

.const_trunc_or_bit_cast(constant_val, to_type) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• constant_val (FFI::Pointer(ValueRef))
• to_type (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3162

attach_function :const_trunc_or_bit_cast, :LLVMConstTruncOrBitCast, [:pointer, :pointer], :pointer

.const_vector(scalar_constant_vals, size) ⇒ FFI::Pointer(ValueRef)

Create a ConstantVector from values.

Parameters:

• scalar_constant_vals (FFI::Pointer(*ValueRef))
• size (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::ConstantVectorllvm::ConstantVector::get()

# File 'lib/llvm/core_ffi.rb', line 2899

attach_function :const_vector, :LLVMConstVector, [:pointer, :uint], :pointer

.const_xor(lhs_constant, rhs_constant) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• lhs_constant (FFI::Pointer(ValueRef))
• rhs_constant (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3059

attach_function :const_xor, :LLVMConstXor, [:pointer, :pointer], :pointer

.context_create ⇒ FFI::Pointer(ContextRef)

Create a new context.

Every call to this function should be paired with a call to LLVMContextDispose() or the context will leak memory.

Returns:

• (FFI::Pointer(ContextRef))

# File 'lib/llvm/core_ffi.rb', line 896

attach_function :context_create, :LLVMContextCreate, [], :pointer

.context_dispose(c) ⇒ nil

Destroy a context instance.

This should be called for every call to LLVMContextCreate() or memory will be leaked.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 936

attach_function :context_dispose, :LLVMContextDispose, [:pointer], :void

.context_set_diagnostic_handler(c, handler, diagnostic_context) ⇒ nil

Set the diagnostic handler for this context.

Parameters:

• c (FFI::Pointer(ContextRef))
• handler (Proc(_callback_diagnostic_handler_))
• diagnostic_context (FFI::Pointer(*Void))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 913

attach_function :context_set_diagnostic_handler, :LLVMContextSetDiagnosticHandler, [:pointer, :diagnostic_handler, :pointer], :void

.context_set_yield_callback(c, callback, opaque_handle) ⇒ nil

Set the yield callback function for this context.

Parameters:

• c (FFI::Pointer(ContextRef))
• callback (Proc(_callback_yield_callback_))
• opaque_handle (FFI::Pointer(*Void))

Returns:

• (nil)

See Also:

• LLVMContext::setYieldCallback()

# File 'lib/llvm/core_ffi.rb', line 925

attach_function :context_set_yield_callback, :LLVMContextSetYieldCallback, [:pointer, :yield_callback, :pointer], :void

.copy_string_rep_of_target_data(td) ⇒ String

(Not documented)

Parameters:

• td (OpaqueTargetData)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 161

attach_function :copy_string_rep_of_target_data, :LLVMCopyStringRepOfTargetData, [OpaqueTargetData], :string

.count_basic_blocks(fn) ⇒ Integer

Obtain the number of basic blocks in a function.

Parameters:

• Fn —

  Function value to operate on.

• fn (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3896

attach_function :count_basic_blocks, :LLVMCountBasicBlocks, [:pointer], :uint

.count_incoming(phi_node) ⇒ Integer

Obtain the number of incoming basic blocks to a PHI node.

Parameters:

• phi_node (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 4366

attach_function :count_incoming, :LLVMCountIncoming, [:pointer], :uint

.count_param_types(function_ty) ⇒ Integer

Obtain the number of parameters this function accepts.

Parameters:

• function_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 1536

attach_function :count_param_types, :LLVMCountParamTypes, [:pointer], :uint

.count_params(fn) ⇒ Integer

Obtain the number of parameters in a function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Functionllvm::Function::arg_size()

# File 'lib/llvm/core_ffi.rb', line 3652

attach_function :count_params, :LLVMCountParams, [:pointer], :uint

.count_struct_element_types(struct_ty) ⇒ Integer

Get the number of elements defined inside the structure.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

See Also:

• llvmllvm::StructTypellvm::StructType::getNumElements()

# File 'lib/llvm/core_ffi.rb', line 1625

attach_function :count_struct_element_types, :LLVMCountStructElementTypes, [:pointer], :uint

.create_builder ⇒ FFI::Pointer(BuilderRef)

(Not documented)

Returns:

• (FFI::Pointer(BuilderRef))

# File 'lib/llvm/core_ffi.rb', line 4404

attach_function :create_builder, :LLVMCreateBuilder, [], :pointer

.create_builder_in_context(c) ⇒ FFI::Pointer(BuilderRef)

An instruction builder represents a point within a basic block and is the exclusive means of building instructions using the C interface.

@{

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(BuilderRef))

# File 'lib/llvm/core_ffi.rb', line 4397

attach_function :create_builder_in_context, :LLVMCreateBuilderInContext, [:pointer], :pointer

.create_execution_engine_for_module(out_ee, m, out_error) ⇒ Integer

– Operations on execution engines ———————————–===

Parameters:

• out_ee (FFI::Pointer(*ExecutionEngineRef))
• m (FFI::Pointer(ModuleRef))
• out_error (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 145

attach_function :create_execution_engine_for_module, :LLVMCreateExecutionEngineForModule, [:pointer, :pointer, :pointer], :int

.create_function_pass_manager(mp) ⇒ FFI::Pointer(PassManagerRef)

Deprecated: Use LLVMCreateFunctionPassManagerForModule instead.

Parameters:

• mp (FFI::Pointer(ModuleProviderRef))

Returns:

• (FFI::Pointer(PassManagerRef))

# File 'lib/llvm/core_ffi.rb', line 5668

attach_function :create_function_pass_manager, :LLVMCreateFunctionPassManager, [:pointer], :pointer

.create_function_pass_manager_for_module(m) ⇒ FFI::Pointer(PassManagerRef)

Constructs a new function-by-function pass pipeline over the module

provider. It does not take ownership of the module provider. This type of
pipeline is suitable for code generation and JIT compilation tasks.
@see llvm::FunctionPassManager::FunctionPassManager

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(PassManagerRef))

# File 'lib/llvm/core_ffi.rb', line 5660

attach_function :create_function_pass_manager_for_module, :LLVMCreateFunctionPassManagerForModule, [:pointer], :pointer

.create_generic_value_of_float(ty, n) ⇒ OpaqueGenericValue

(Not documented)

Parameters:

• ty (FFI::Pointer(TypeRef))
• n (Float)

Returns:

• (OpaqueGenericValue)

# File 'lib/llvm/execution_engine_ffi.rb', line 93

attach_function :create_generic_value_of_float, :LLVMCreateGenericValueOfFloat, [:pointer, :double], OpaqueGenericValue

.create_generic_value_of_int(ty, n, is_signed) ⇒ OpaqueGenericValue

– Operations on generic values ————————————–===

Parameters:

• ty (FFI::Pointer(TypeRef))
• n (Integer)
• is_signed (Integer)

Returns:

• (OpaqueGenericValue)

# File 'lib/llvm/execution_engine_ffi.rb', line 76

attach_function :create_generic_value_of_int, :LLVMCreateGenericValueOfInt, [:pointer, :ulong_long, :int], OpaqueGenericValue

.create_generic_value_of_pointer(p) ⇒ OpaqueGenericValue

(Not documented)

Parameters:

• p (FFI::Pointer(*Void))

Returns:

• (OpaqueGenericValue)

# File 'lib/llvm/execution_engine_ffi.rb', line 84

attach_function :create_generic_value_of_pointer, :LLVMCreateGenericValueOfPointer, [:pointer], OpaqueGenericValue

.create_interpreter_for_module(out_interp, m, out_error) ⇒ Integer

(Not documented)

Parameters:

• out_interp (FFI::Pointer(*ExecutionEngineRef))
• m (FFI::Pointer(ModuleRef))
• out_error (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 155

attach_function :create_interpreter_for_module, :LLVMCreateInterpreterForModule, [:pointer, :pointer, :pointer], :int

.create_jit_compiler_for_module(out_jit, m, opt_level, out_error) ⇒ Integer

(Not documented)

Parameters:

• out_jit (FFI::Pointer(*ExecutionEngineRef))
• m (FFI::Pointer(ModuleRef))
• opt_level (Integer)
• out_error (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 166

attach_function :create_jit_compiler_for_module, :LLVMCreateJITCompilerForModule, [:pointer, :pointer, :uint, :pointer], :int

.create_mcjit_compiler_for_module(out_jit, m, options, size_of_options, out_error) ⇒ Integer

Create an MCJIT execution engine for a module, with the given options. It is the responsibility of the caller to ensure that all fields in Options up to the given SizeOfOptions are initialized. It is correct to pass a smaller value of SizeOfOptions that omits some fields. The canonical way of using this is:

LLVMMCJITCompilerOptions options; LLVMInitializeMCJITCompilerOptions(&options, sizeof(options)); … fill in those options you care about LLVMCreateMCJITCompilerForModule(&jit, mod, &options, sizeof(options),

&error);

Note that this is also correct, though possibly suboptimal:

LLVMCreateMCJITCompilerForModule(&jit, mod, 0, 0, &error);

Parameters:

• out_jit (FFI::Pointer(*ExecutionEngineRef))
• m (FFI::Pointer(ModuleRef))
• options (MCJITCompilerOptions)
• size_of_options (Integer)
• out_error (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 201

attach_function :create_mcjit_compiler_for_module, :LLVMCreateMCJITCompilerForModule, [:pointer, :pointer, MCJITCompilerOptions, :ulong, :pointer], :int

.create_memory_buffer_with_contents_of_file(path, out_mem_buf, out_message) ⇒ Integer

@{

Parameters:

• path (String)
• out_mem_buf (FFI::Pointer(*MemoryBufferRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5578

attach_function :create_memory_buffer_with_contents_of_file, :LLVMCreateMemoryBufferWithContentsOfFile, [:string, :pointer, :pointer], :int

.create_memory_buffer_with_memory_range(input_data, input_data_length, buffer_name, requires_null_terminator) ⇒ FFI::Pointer(MemoryBufferRef)

(Not documented)

Parameters:

• input_data (String)
• input_data_length (Integer)
• buffer_name (String)
• requires_null_terminator (Integer)

Returns:

• (FFI::Pointer(MemoryBufferRef))

# File 'lib/llvm/core_ffi.rb', line 5598

attach_function :create_memory_buffer_with_memory_range, :LLVMCreateMemoryBufferWithMemoryRange, [:string, :ulong, :string, :int], :pointer

.create_memory_buffer_with_memory_range_copy(input_data, input_data_length, buffer_name) ⇒ FFI::Pointer(MemoryBufferRef)

(Not documented)

Parameters:

• input_data (String)
• input_data_length (Integer)
• buffer_name (String)

Returns:

• (FFI::Pointer(MemoryBufferRef))

# File 'lib/llvm/core_ffi.rb', line 5608

attach_function :create_memory_buffer_with_memory_range_copy, :LLVMCreateMemoryBufferWithMemoryRangeCopy, [:string, :ulong, :string], :pointer

.create_memory_buffer_with_stdin(out_mem_buf, out_message) ⇒ Integer

(Not documented)

Parameters:

• out_mem_buf (FFI::Pointer(*MemoryBufferRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5587

attach_function :create_memory_buffer_with_stdin, :LLVMCreateMemoryBufferWithSTDIN, [:pointer, :pointer], :int

.create_message(message) ⇒ String

– Error handling —————————————————-===

Parameters:

• message (String)

Returns:

• (String)

# File 'lib/llvm/core_ffi.rb', line 848

attach_function :create_message, :LLVMCreateMessage, [:string], :string

.create_module_provider_for_existing_module(m) ⇒ FFI::Pointer(ModuleProviderRef)

Changes the type of M so it can be passed to FunctionPassManagers and the JIT. They take ModuleProviders for historical reasons.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ModuleProviderRef))

# File 'lib/llvm/core_ffi.rb', line 5558

attach_function :create_module_provider_for_existing_module, :LLVMCreateModuleProviderForExistingModule, [:pointer], :pointer

.create_pass_manager ⇒ FFI::Pointer(PassManagerRef)

Constructs a new whole-module pass pipeline. This type of pipeline is

suitable for link-time optimization and whole-module transformations.
@see llvm::PassManager::PassManager

Returns:

• (FFI::Pointer(PassManagerRef))

# File 'lib/llvm/core_ffi.rb', line 5649

attach_function :create_pass_manager, :LLVMCreatePassManager, [], :pointer

.create_simple_mcjit_memory_manager(opaque, allocate_code_section, allocate_data_section, finalize_memory, destroy) ⇒ OpaqueMCJITMemoryManager

Create a simple custom MCJIT memory manager. This memory manager can intercept allocations in a module-oblivious way. This will return NULL if any of the passed functions are NULL.

Parameters:

• Opaque —

  An opaque client object to pass back to the callbacks.

• AllocateCodeSection —

  Allocate a block of memory for executable code.

• AllocateDataSection —

  Allocate a block of memory for data.

• FinalizeMemory —

  Set page permissions and flush cache. Return 0 on success, 1 on error.

• opaque (FFI::Pointer(*Void))
• allocate_code_section (Proc(_callback_memory_manager_allocate_code_section_callback_))
• allocate_data_section (Proc(_callback_memory_manager_allocate_data_section_callback_))
• finalize_memory (Proc(_callback_memory_manager_finalize_memory_callback_))
• destroy (FFI::Pointer(MemoryManagerDestroyCallback))

Returns:

• (OpaqueMCJITMemoryManager)

# File 'lib/llvm/execution_engine_ffi.rb', line 412

attach_function :create_simple_mcjit_memory_manager, :LLVMCreateSimpleMCJITMemoryManager, [:pointer, :memory_manager_allocate_code_section_callback, :memory_manager_allocate_data_section_callback, :memory_manager_finalize_memory_callback, :pointer], OpaqueMCJITMemoryManager

.create_target_data(string_rep) ⇒ OpaqueTargetData

(Not documented)

Parameters:

• string_rep (String)

Returns:

• (OpaqueTargetData)

# File 'lib/llvm/target_ffi.rb', line 136

attach_function :create_target_data, :LLVMCreateTargetData, [:string], OpaqueTargetData

.create_target_data_layout(t) ⇒ OpaqueTargetData

Create a DataLayout based on the targetMachine.

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (OpaqueTargetData)

# File 'lib/llvm/target_ffi.rb', line 574

attach_function :create_target_data_layout, :LLVMCreateTargetDataLayout, [OpaqueTargetMachine], OpaqueTargetData

.create_target_machine(t, triple, cpu, features, level, reloc, code_model) ⇒ OpaqueTargetMachine

Creates a new llvm::TargetMachine. See llvm::Target::createTargetMachine

Parameters:

• t (Target)
• triple (String)
• cpu (String)
• features (String)
• level (Symbol from _enum_code_gen_opt_level_)
• reloc (Symbol from _enum_reloc_mode_)
• code_model (Symbol from _enum_code_model_)

Returns:

• (OpaqueTargetMachine)

# File 'lib/llvm/target_ffi.rb', line 519

attach_function :create_target_machine, :LLVMCreateTargetMachine, [Target, :string, :string, :string, :code_gen_opt_level, :reloc_mode, :code_model], OpaqueTargetMachine

.delete_basic_block(bb) ⇒ nil

Remove a basic block from a function and delete it.

This deletes the basic block from its containing function and deletes the basic block itself.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::eraseFromParent()

# File 'lib/llvm/core_ffi.rb', line 4023

attach_function :delete_basic_block, :LLVMDeleteBasicBlock, [:pointer], :void

.delete_function(fn) ⇒ nil

Remove a function from its containing module and deletes it.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Functionllvm::Function::eraseFromParent()

# File 'lib/llvm/core_ffi.rb', line 3552

attach_function :delete_function, :LLVMDeleteFunction, [:pointer], :void

.delete_global(global_var) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3440

attach_function :delete_global, :LLVMDeleteGlobal, [:pointer], :void

.dispose_builder(builder) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4475

attach_function :dispose_builder, :LLVMDisposeBuilder, [:pointer], :void

.dispose_execution_engine(ee) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 209

attach_function :dispose_execution_engine, :LLVMDisposeExecutionEngine, [OpaqueExecutionEngine], :void

.dispose_generic_value(gen_val) ⇒ nil

(Not documented)

Parameters:

• gen_val (OpaqueGenericValue)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 135

attach_function :dispose_generic_value, :LLVMDisposeGenericValue, [OpaqueGenericValue], :void

.dispose_mcjit_memory_manager(mm) ⇒ nil

(Not documented)

Parameters:

• mm (OpaqueMCJITMemoryManager)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 420

attach_function :dispose_mcjit_memory_manager, :LLVMDisposeMCJITMemoryManager, [OpaqueMCJITMemoryManager], :void

.dispose_memory_buffer(mem_buf) ⇒ nil

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5632

attach_function :dispose_memory_buffer, :LLVMDisposeMemoryBuffer, [:pointer], :void

.dispose_message(message) ⇒ nil

(Not documented)

Parameters:

• message (String)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 856

attach_function :dispose_message, :LLVMDisposeMessage, [:string], :void

.dispose_module(m) ⇒ nil

Destroy a module instance.

This must be called for every created module or memory will be leaked.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 1021

attach_function :dispose_module, :LLVMDisposeModule, [:pointer], :void

.dispose_module_provider(m) ⇒ nil

Destroys the module M.

Parameters:

• m (FFI::Pointer(ModuleProviderRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5566

attach_function :dispose_module_provider, :LLVMDisposeModuleProvider, [:pointer], :void

.dispose_pass_manager(pm) ⇒ nil

Frees the memory of a pass pipeline. For function pipelines, does not free

the module provider.
@see llvm::PassManagerBase::~PassManagerBase.

Parameters:

• pm (FFI::Pointer(PassManagerRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5722

attach_function :dispose_pass_manager, :LLVMDisposePassManager, [:pointer], :void

.dispose_target_data(td) ⇒ nil

(Not documented)

Parameters:

• td (OpaqueTargetData)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 144

attach_function :dispose_target_data, :LLVMDisposeTargetData, [OpaqueTargetData], :void

.dispose_target_machine(t) ⇒ nil

Dispose the LLVMTargetMachineRef instance generated by

LLVMCreateTargetMachine.

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 528

attach_function :dispose_target_machine, :LLVMDisposeTargetMachine, [OpaqueTargetMachine], :void

.double_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1477

attach_function :double_type, :LLVMDoubleType, [], :pointer

.double_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 64-bit floating point type from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1429

attach_function :double_type_in_context, :LLVMDoubleTypeInContext, [:pointer], :pointer

.dump_module(m) ⇒ nil

Dump a representation of a module to stderr.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (nil)

See Also:

• Module::dump()

# File 'lib/llvm/core_ffi.rb', line 1073

attach_function :dump_module, :LLVMDumpModule, [:pointer], :void

.dump_type(val) ⇒ nil

Dump a representation of a type to stderr.

Parameters:

• val (FFI::Pointer(TypeRef))

Returns:

• (nil)

See Also:

• llvmllvm::Typellvm::Type::dump()

# File 'lib/llvm/core_ffi.rb', line 1278

attach_function :dump_type, :LLVMDumpType, [:pointer], :void

.dump_value(val) ⇒ nil

Dump a representation of a value to stderr.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Valuellvm::Value::dump()

# File 'lib/llvm/core_ffi.rb', line 1830

attach_function :dump_value, :LLVMDumpValue, [:pointer], :void

.element_at_offset(td, struct_ty, offset) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• struct_ty (FFI::Pointer(TypeRef))
• offset (Integer)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 295

attach_function :element_at_offset, :LLVMElementAtOffset, [OpaqueTargetData, :pointer, :ulong_long], :uint

.finalize_function_pass_manager(fpm) ⇒ Integer

Finalizes all of the function passes scheduled in in the function pass

manager. Returns 1 if any of the passes modified the module, 0 otherwise.
@see llvm::FunctionPassManager::doFinalization

Parameters:

• fpm (FFI::Pointer(PassManagerRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5712

attach_function :finalize_function_pass_manager, :LLVMFinalizeFunctionPassManager, [:pointer], :int

.find_function(ee, name, out_fn) ⇒ Integer

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• name (String)
• out_fn (FFI::Pointer(*ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 287

attach_function :find_function, :LLVMFindFunction, [OpaqueExecutionEngine, :string, :pointer], :int

.float_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1470

attach_function :float_type, :LLVMFloatType, [], :pointer

.float_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 32-bit floating point type from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1421

attach_function :float_type_in_context, :LLVMFloatTypeInContext, [:pointer], :pointer

.fp128_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1491

attach_function :fp128_type, :LLVMFP128Type, [], :pointer

.fp128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 128-bit floating point type (112-bit mantissa) from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1446

attach_function :fp128_type_in_context, :LLVMFP128TypeInContext, [:pointer], :pointer

.free_machine_code_for_function(ee, f) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• f (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 257

attach_function :free_machine_code_for_function, :LLVMFreeMachineCodeForFunction, [OpaqueExecutionEngine, :pointer], :void

.function_type(return_type, param_types, param_count, is_var_arg) ⇒ FFI::Pointer(TypeRef)

Obtain a function type consisting of a specified signature.

The function is defined as a tuple of a return Type, a list of parameter types, and whether the function is variadic.

Parameters:

• return_type (FFI::Pointer(TypeRef))
• param_types (FFI::Pointer(*TypeRef))
• param_count (Integer)
• is_var_arg (Integer)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1512

attach_function :function_type, :LLVMFunctionType, [:pointer, :pointer, :uint, :int], :pointer

.generic_value_int_width(gen_val_ref) ⇒ Integer

(Not documented)

Parameters:

• gen_val_ref (OpaqueGenericValue)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 101

attach_function :generic_value_int_width, :LLVMGenericValueIntWidth, [OpaqueGenericValue], :uint

.generic_value_to_float(ty_ref, gen_val) ⇒ Float

(Not documented)

Parameters:

• ty_ref (FFI::Pointer(TypeRef))
• gen_val (OpaqueGenericValue)

Returns:

• (Float)

# File 'lib/llvm/execution_engine_ffi.rb', line 127

attach_function :generic_value_to_float, :LLVMGenericValueToFloat, [:pointer, OpaqueGenericValue], :double

.generic_value_to_int(gen_val, is_signed) ⇒ Integer

(Not documented)

Parameters:

• gen_val (OpaqueGenericValue)
• is_signed (Integer)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 110

attach_function :generic_value_to_int, :LLVMGenericValueToInt, [OpaqueGenericValue, :int], :ulong_long

.generic_value_to_pointer(gen_val) ⇒ FFI::Pointer(*Void)

(Not documented)

Parameters:

• gen_val (OpaqueGenericValue)

Returns:

• (FFI::Pointer(*Void))

# File 'lib/llvm/execution_engine_ffi.rb', line 118

attach_function :generic_value_to_pointer, :LLVMGenericValueToPointer, [OpaqueGenericValue], :pointer

.get_alignment(v) ⇒ Integer

Obtain the preferred alignment of the value.

Parameters:

• v (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::AllocaInstllvm::AllocaInst::getAlignment()
• llvmllvm::LoadInstllvm::LoadInst::getAlignment()
• llvmllvm::StoreInstllvm::StoreInst::getAlignment()
• llvmllvm::GlobalValuellvm::GlobalValue::getAlignment()

# File 'lib/llvm/core_ffi.rb', line 3351

attach_function :get_alignment, :LLVMGetAlignment, [:pointer], :uint

.get_array_length(array_ty) ⇒ Integer

Obtain the length of an array type.

This only works on types that represent arrays.

Parameters:

• array_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

See Also:

• llvmllvm::ArrayTypellvm::ArrayType::getNumElements()

# File 'lib/llvm/core_ffi.rb', line 1690

attach_function :get_array_length, :LLVMGetArrayLength, [:pointer], :uint

.get_as_string(c, out) ⇒ String

Get the given constant data sequential as a string.

Parameters:

• c (FFI::Pointer(ValueRef))
• out (FFI::Pointer(*SizeT))

Returns:

• (String)

See Also:

• ConstantDataSequential::getAsString()

# File 'lib/llvm/core_ffi.rb', line 2825

attach_function :get_as_string, :LLVMGetAsString, [:pointer, :pointer], :string

.get_basic_block_parent(bb) ⇒ FFI::Pointer(ValueRef)

Obtain the function to which a basic block belongs.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::getParent()

# File 'lib/llvm/core_ffi.rb', line 3871

attach_function :get_basic_block_parent, :LLVMGetBasicBlockParent, [:pointer], :pointer

.get_basic_block_terminator(bb) ⇒ FFI::Pointer(ValueRef)

Obtain the terminator instruction for a basic block.

If the basic block does not have a terminator (it is not well-formed if it doesn’t), then NULL is returned.

The returned LLVMValueRef corresponds to a llvm::TerminatorInst.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::getTerminator()

# File 'lib/llvm/core_ffi.rb', line 3886

attach_function :get_basic_block_terminator, :LLVMGetBasicBlockTerminator, [:pointer], :pointer

.get_basic_blocks(fn, basic_blocks) ⇒ nil

Obtain all of the basic blocks in a function.

This operates on a function value. The BasicBlocks parameter is a pointer to a pre-allocated array of LLVMBasicBlockRef of at least LLVMCountBasicBlocks() in length. This array is populated with LLVMBasicBlockRef instances.

Parameters:

• fn (FFI::Pointer(ValueRef))
• basic_blocks (FFI::Pointer(*BasicBlockRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3910

attach_function :get_basic_blocks, :LLVMGetBasicBlocks, [:pointer, :pointer], :void

.get_bitcode_module(mem_buf, out_m, out_message) ⇒ Integer

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_m (FFI::Pointer(*ModuleRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 84

attach_function :get_bitcode_module, :LLVMGetBitcodeModule, [:pointer, :pointer, :pointer], :int

.get_bitcode_module2(mem_buf, out_m) ⇒ Integer

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_m (FFI::Pointer(*ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 93

attach_function :get_bitcode_module2, :LLVMGetBitcodeModule2, [:pointer, :pointer], :int

.get_bitcode_module_in_context(context_ref, mem_buf, out_m, out_message) ⇒ Integer

(Not documented)

Parameters:

• context_ref (FFI::Pointer(ContextRef))
• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_m (FFI::Pointer(*ModuleRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 64

attach_function :get_bitcode_module_in_context, :LLVMGetBitcodeModuleInContext, [:pointer, :pointer, :pointer, :pointer], :int

.get_bitcode_module_in_context2(context_ref, mem_buf, out_m) ⇒ Integer

(Not documented)

Parameters:

• context_ref (FFI::Pointer(ContextRef))
• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_m (FFI::Pointer(*ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 74

attach_function :get_bitcode_module_in_context2, :LLVMGetBitcodeModuleInContext2, [:pointer, :pointer, :pointer], :int

.get_buffer_size(mem_buf) ⇒ Integer

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5624

attach_function :get_buffer_size, :LLVMGetBufferSize, [:pointer], :ulong

.get_buffer_start(mem_buf) ⇒ String

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))

Returns:

• (String)

# File 'lib/llvm/core_ffi.rb', line 5616

attach_function :get_buffer_start, :LLVMGetBufferStart, [:pointer], :string

.get_condition(branch) ⇒ FFI::Pointer(ValueRef)

Return the condition of a branch instruction.

This only works on llvm::BranchInst instructions.

Parameters:

• branch (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::BranchInstllvm::BranchInst::getCondition

# File 'lib/llvm/core_ffi.rb', line 4322

attach_function :get_condition, :LLVMGetCondition, [:pointer], :pointer

.get_const_opcode(constant_val) ⇒ Symbol from _enum_opcode_

Functions in this group correspond to APIs on llvm::ConstantExpr.

@{

Parameters:

• constant_val (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_opcode_)

See Also:

• llvm::ConstantExpr.

# File 'lib/llvm/core_ffi.rb', line 2913

attach_function :get_const_opcode, :LLVMGetConstOpcode, [:pointer], :opcode

.get_current_debug_location(builder) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4492

attach_function :get_current_debug_location, :LLVMGetCurrentDebugLocation, [:pointer], :pointer

.get_data_layout(m) ⇒ String

Obtain the data layout for a module.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (String)

See Also:

• Module::getDataLayout()

# File 'lib/llvm/core_ffi.rb', line 1031

attach_function :get_data_layout, :LLVMGetDataLayout, [:pointer], :string

.get_default_target_triple ⇒ String

Get a triple for the host machine as a string. The result needs to be

disposed with LLVMDisposeMessage.

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 617

attach_function :get_default_target_triple, :LLVMGetDefaultTargetTriple, [], :string

.get_diag_info_description(di) ⇒ String

Return a string representation of the DiagnosticInfo. Use LLVMDisposeMessage to free the string.

Parameters:

• di (FFI::Pointer(DiagnosticInfoRef))

Returns:

• (String)

See Also:

• DiagnosticInfo::print()

# File 'lib/llvm/core_ffi.rb', line 947

attach_function :get_diag_info_description, :LLVMGetDiagInfoDescription, [:pointer], :string

.get_diag_info_severity(di) ⇒ Symbol from _enum_diagnostic_severity_

Return an enum LLVMDiagnosticSeverity.

Parameters:

• di (FFI::Pointer(DiagnosticInfoRef))

Returns:

• (Symbol from _enum_diagnostic_severity_)

See Also:

• DiagnosticInfo::getSeverity()

# File 'lib/llvm/core_ffi.rb', line 957

attach_function :get_diag_info_severity, :LLVMGetDiagInfoSeverity, [:pointer], :diagnostic_severity

.get_dll_storage_class(global) ⇒ Symbol from _enum_dll_storage_class_

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_dll_storage_class_)

# File 'lib/llvm/core_ffi.rb', line 3313

attach_function :get_dll_storage_class, :LLVMGetDLLStorageClass, [:pointer], :dll_storage_class

.get_element_as_constant(c, idx) ⇒ FFI::Pointer(ValueRef)

Get an element at specified index as a constant.

Parameters:

• c (FFI::Pointer(ValueRef))
• idx (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• ConstantDataSequential::getElementAsConstant()

# File 'lib/llvm/core_ffi.rb', line 2888

attach_function :get_element_as_constant, :LLVMGetElementAsConstant, [:pointer, :uint], :pointer

.get_element_type(ty) ⇒ FFI::Pointer(TypeRef)

Obtain the type of elements within a sequential type.

This works on array, vector, and pointer types.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::SequentialTypellvm::SequentialType::getElementType()

# File 'lib/llvm/core_ffi.rb', line 1664

attach_function :get_element_type, :LLVMGetElementType, [:pointer], :pointer

.get_entry_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

Obtain the basic block that corresponds to the entry point of a function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::Functionllvm::Function::getEntryBlock()

# File 'lib/llvm/core_ffi.rb', line 3960

attach_function :get_entry_basic_block, :LLVMGetEntryBasicBlock, [:pointer], :pointer

.get_execution_engine_target_data(ee) ⇒ FFI::Pointer(TargetDataRef)

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)

Returns:

• (FFI::Pointer(TargetDataRef))

# File 'lib/llvm/execution_engine_ffi.rb', line 304

attach_function :get_execution_engine_target_data, :LLVMGetExecutionEngineTargetData, [OpaqueExecutionEngine], :pointer

.get_execution_engine_target_machine(ee) ⇒ FFI::Pointer(TargetMachineRef)

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)

Returns:

• (FFI::Pointer(TargetMachineRef))

# File 'lib/llvm/execution_engine_ffi.rb', line 312

attach_function :get_execution_engine_target_machine, :LLVMGetExecutionEngineTargetMachine, [OpaqueExecutionEngine], :pointer

.get_f_cmp_predicate(inst) ⇒ Symbol from _enum_real_predicate_

Obtain the float predicate of an instruction.

This is only valid for instructions that correspond to llvm::FCmpInst or llvm::ConstantExpr whose opcode is llvm::Instruction::FCmp.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_real_predicate_)

See Also:

• llvmllvm::FCmpInstllvm::FCmpInst::getPredicate()

# File 'lib/llvm/core_ffi.rb', line 4189

attach_function :get_f_cmp_predicate, :LLVMGetFCmpPredicate, [:pointer], :real_predicate

.get_first_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

Obtain the first basic block in a function.

The returned basic block can be used as an iterator. You will likely eventually call into LLVMGetNextBasicBlock() with it.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::Functionllvm::Function::begin()

# File 'lib/llvm/core_ffi.rb', line 3923

attach_function :get_first_basic_block, :LLVMGetFirstBasicBlock, [:pointer], :pointer

.get_first_function(m) ⇒ FFI::Pointer(ValueRef)

Obtain an iterator to the first Function in a Module.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Modulellvm::Module::begin()

# File 'lib/llvm/core_ffi.rb', line 1204

attach_function :get_first_function, :LLVMGetFirstFunction, [:pointer], :pointer

.get_first_global(m) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3408

attach_function :get_first_global, :LLVMGetFirstGlobal, [:pointer], :pointer

.get_first_instruction(bb) ⇒ FFI::Pointer(ValueRef)

Obtain the first instruction in a basic block.

The returned LLVMValueRef corresponds to a llvm::Instruction instance.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4069

attach_function :get_first_instruction, :LLVMGetFirstInstruction, [:pointer], :pointer

.get_first_param(fn) ⇒ FFI::Pointer(ValueRef)

Obtain the first parameter to a function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Functionllvm::Function::arg_begin()

# File 'lib/llvm/core_ffi.rb', line 3706

attach_function :get_first_param, :LLVMGetFirstParam, [:pointer], :pointer

.get_first_target ⇒ Target

Returns the first llvm::Target in the registered targets list.

Returns:

• (Target)

# File 'lib/llvm/target_ffi.rb', line 436

attach_function :get_first_target, :LLVMGetFirstTarget, [], Target

.get_first_use(val) ⇒ FFI::Pointer(UseRef)

Obtain the first use of a value.

Uses are obtained in an iterator fashion. First, call this function to obtain a reference to the first use. Then, call LLVMGetNextUse() on that instance and all subsequently obtained instances until LLVMGetNextUse() returns NULL.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(UseRef))

See Also:

• llvmllvm::Valuellvm::Value::use_begin()

# File 'lib/llvm/core_ffi.rb', line 2523

attach_function :get_first_use, :LLVMGetFirstUse, [:pointer], :pointer

.get_function_address(ee, name) ⇒ Integer

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• name (String)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 349

attach_function :get_function_address, :LLVMGetFunctionAddress, [OpaqueExecutionEngine, :string], :ulong

.get_function_call_conv(fn) ⇒ Integer

Obtain the calling function of a function.

The returned value corresponds to the LLVMCallConv enumeration.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Functionllvm::Function::getCallingConv()

# File 'lib/llvm/core_ffi.rb', line 3595

attach_function :get_function_call_conv, :LLVMGetFunctionCallConv, [:pointer], :uint

.get_gc(fn) ⇒ String

Obtain the name of the garbage collector to use during code generation.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (String)

See Also:

• llvmllvm::Functionllvm::Function::getGC()

# File 'lib/llvm/core_ffi.rb', line 3620

attach_function :get_gc, :LLVMGetGC, [:pointer], :string

.get_global_context ⇒ FFI::Pointer(ContextRef)

Obtain the global context instance.

Returns:

• (FFI::Pointer(ContextRef))

# File 'lib/llvm/core_ffi.rb', line 903

attach_function :get_global_context, :LLVMGetGlobalContext, [], :pointer

.get_global_parent(global) ⇒ FFI::Pointer(ModuleRef)

This group contains functions that operate on global values. Functions in this group relate to functions in the llvm::GlobalValue class tree.

@{

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ModuleRef))

See Also:

• llvmllvm::GlobalValue

# File 'lib/llvm/core_ffi.rb', line 3246

attach_function :get_global_parent, :LLVMGetGlobalParent, [:pointer], :pointer

.get_global_pass_registry ⇒ FFI::Pointer(PassRegistryRef)

Return the global pass registry, for use with initialization functions.

@see llvm::PassRegistry::getPassRegistry

Returns:

• (FFI::Pointer(PassRegistryRef))

# File 'lib/llvm/core_ffi.rb', line 5640

attach_function :get_global_pass_registry, :LLVMGetGlobalPassRegistry, [], :pointer

.get_global_value_address(ee, name) ⇒ Integer

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• name (String)

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 340

attach_function :get_global_value_address, :LLVMGetGlobalValueAddress, [OpaqueExecutionEngine, :string], :ulong

.get_i_cmp_predicate(inst) ⇒ Symbol from _enum_int_predicate_

Obtain the predicate of an instruction.

This is only valid for instructions that correspond to llvm::ICmpInst or llvm::ConstantExpr whose opcode is llvm::Instruction::ICmp.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_int_predicate_)

See Also:

• llvmllvm::ICmpInstllvm::ICmpInst::getPredicate()

# File 'lib/llvm/core_ffi.rb', line 4176

attach_function :get_i_cmp_predicate, :LLVMGetICmpPredicate, [:pointer], :int_predicate

.get_incoming_block(phi_node, index) ⇒ FFI::Pointer(BasicBlockRef)

Obtain an incoming value to a PHI node as an LLVMBasicBlockRef.

Parameters:

• phi_node (FFI::Pointer(ValueRef))
• index (Integer)

Returns:

• (FFI::Pointer(BasicBlockRef))

# File 'lib/llvm/core_ffi.rb', line 4384

attach_function :get_incoming_block, :LLVMGetIncomingBlock, [:pointer, :uint], :pointer

.get_incoming_value(phi_node, index) ⇒ FFI::Pointer(ValueRef)

Obtain an incoming value to a PHI node as an LLVMValueRef.

Parameters:

• phi_node (FFI::Pointer(ValueRef))
• index (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4375

attach_function :get_incoming_value, :LLVMGetIncomingValue, [:pointer, :uint], :pointer

.get_initializer(global_var) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3448

attach_function :get_initializer, :LLVMGetInitializer, [:pointer], :pointer

.get_insert_block(builder) ⇒ FFI::Pointer(BasicBlockRef)

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

# File 'lib/llvm/core_ffi.rb', line 4440

attach_function :get_insert_block, :LLVMGetInsertBlock, [:pointer], :pointer

.get_instruction_call_conv(instr) ⇒ Integer

Obtain the calling convention for a call instruction.

This is the opposite of LLVMSetInstructionCallConv(). Reads its usage.

Parameters:

• instr (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• LLVMSetInstructionCallConv()

# File 'lib/llvm/core_ffi.rb', line 4230

attach_function :get_instruction_call_conv, :LLVMGetInstructionCallConv, [:pointer], :uint

.get_instruction_opcode(inst) ⇒ Symbol from _enum_opcode_

Obtain the code opcode for an individual instruction.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_opcode_)

See Also:

• llvmllvm::Instructionllvm::Instruction::getOpCode()

# File 'lib/llvm/core_ffi.rb', line 4163

attach_function :get_instruction_opcode, :LLVMGetInstructionOpcode, [:pointer], :opcode

.get_instruction_parent(inst) ⇒ FFI::Pointer(BasicBlockRef)

Obtain the basic block to which an instruction belongs.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::Instructionllvm::Instruction::getParent()

# File 'lib/llvm/core_ffi.rb', line 4116

attach_function :get_instruction_parent, :LLVMGetInstructionParent, [:pointer], :pointer

.get_int_type_width(integer_ty) ⇒ Integer

(Not documented)

Parameters:

• integer_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 1405

attach_function :get_int_type_width, :LLVMGetIntTypeWidth, [:pointer], :uint

.get_intrinsic_id(fn) ⇒ Integer

Obtain the ID number from a function instance.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Functionllvm::Function::getIntrinsicID()

# File 'lib/llvm/core_ffi.rb', line 3583

attach_function :get_intrinsic_id, :LLVMGetIntrinsicID, [:pointer], :uint

.get_last_basic_block(fn) ⇒ FFI::Pointer(BasicBlockRef)

Obtain the last basic block in a function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::Functionllvm::Function::end()

# File 'lib/llvm/core_ffi.rb', line 3933

attach_function :get_last_basic_block, :LLVMGetLastBasicBlock, [:pointer], :pointer

.get_last_function(m) ⇒ FFI::Pointer(ValueRef)

Obtain an iterator to the last Function in a Module.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Modulellvm::Module::end()

# File 'lib/llvm/core_ffi.rb', line 1214

attach_function :get_last_function, :LLVMGetLastFunction, [:pointer], :pointer

.get_last_global(m) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3416

attach_function :get_last_global, :LLVMGetLastGlobal, [:pointer], :pointer

.get_last_instruction(bb) ⇒ FFI::Pointer(ValueRef)

Obtain the last instruction in a basic block.

The returned LLVMValueRef corresponds to an LLVM:Instruction.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4079

attach_function :get_last_instruction, :LLVMGetLastInstruction, [:pointer], :pointer

.get_last_param(fn) ⇒ FFI::Pointer(ValueRef)

Obtain the last parameter to a function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Functionllvm::Function::arg_end()

# File 'lib/llvm/core_ffi.rb', line 3716

attach_function :get_last_param, :LLVMGetLastParam, [:pointer], :pointer

.get_linkage(global) ⇒ Symbol from _enum_linkage_

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_linkage_)

# File 'lib/llvm/core_ffi.rb', line 3262

attach_function :get_linkage, :LLVMGetLinkage, [:pointer], :linkage

.get_md_kind_id(name, s_len) ⇒ Integer

(Not documented)

Parameters:

• name (String)
• s_len (Integer)

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 976

attach_function :get_md_kind_id, :LLVMGetMDKindID, [:string, :uint], :uint

.get_md_kind_id_in_context(c, name, s_len) ⇒ Integer

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))
• name (String)
• s_len (Integer)

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 967

attach_function :get_md_kind_id_in_context, :LLVMGetMDKindIDInContext, [:pointer, :string, :uint], :uint

.get_md_node_num_operands(v) ⇒ Object

Obtain the number of operands from an MDNode value.

Parameters:

• V —

  MDNode to get number of operands from.

• v (FFI::Pointer(ValueRef))

Returns:

• Number of operands of the MDNode.

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3820

attach_function :get_md_node_num_operands, :LLVMGetMDNodeNumOperands, [:pointer], :uint

.get_md_node_operands(v, dest) ⇒ nil

Obtain the given MDNode’s operands.

The passed LLVMValueRef pointer should point to enough memory to hold all of the operands of the given MDNode (see LLVMGetMDNodeNumOperands) as LLVMValueRefs. This memory will be populated with the LLVMValueRefs of the MDNode’s operands.

Parameters:

• V —

  MDNode to get the operands from.

• Dest —

  Destination array for operands.

• v (FFI::Pointer(ValueRef))
• dest (FFI::Pointer(*ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3837

attach_function :get_md_node_operands, :LLVMGetMDNodeOperands, [:pointer, :pointer], :void

.get_md_string(v, len) ⇒ Object

Obtain the underlying string from a MDString value.

Parameters:

• V —

  Instance to obtain string from.

• Len —

  Memory address which will hold length of returned string.

• v (FFI::Pointer(ValueRef))
• len (FFI::Pointer(*UInt))

Returns:

• String data in MDString.

• (String)

# File 'lib/llvm/core_ffi.rb', line 3809

attach_function :get_md_string, :LLVMGetMDString, [:pointer, :pointer], :string

.get_metadata(val, kind_id) ⇒ FFI::Pointer(ValueRef)

Return metadata associated with an instruction value.

Parameters:

• val (FFI::Pointer(ValueRef))
• kind_id (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4096

attach_function :get_metadata, :LLVMGetMetadata, [:pointer, :uint], :pointer

.get_module_context(m) ⇒ FFI::Pointer(ContextRef)

Obtain the context to which this module is associated.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(ContextRef))

See Also:

• Module::getContext()

# File 'lib/llvm/core_ffi.rb', line 1118

attach_function :get_module_context, :LLVMGetModuleContext, [:pointer], :pointer

.get_module_data_layout(m) ⇒ OpaqueTargetData

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (OpaqueTargetData)

# File 'lib/llvm/target_ffi.rb', line 119

attach_function :get_module_data_layout, :LLVMGetModuleDataLayout, [:pointer], OpaqueTargetData

.get_named_function(m, name) ⇒ FFI::Pointer(ValueRef)

Obtain a Function value from a Module by its name.

The returned value corresponds to a llvm::Function value.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Modulellvm::Module::getFunction()

# File 'lib/llvm/core_ffi.rb', line 1194

attach_function :get_named_function, :LLVMGetNamedFunction, [:pointer, :string], :pointer

.get_named_global(m, name) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3400

attach_function :get_named_global, :LLVMGetNamedGlobal, [:pointer, :string], :pointer

.get_named_metadata_num_operands(m, name) ⇒ Integer

Obtain the number of operands for named metadata in a module.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)

Returns:

• (Integer)

See Also:

• llvmllvm::Modulellvm::Module::getNamedMetadata()

# File 'lib/llvm/core_ffi.rb', line 1138

attach_function :get_named_metadata_num_operands, :LLVMGetNamedMetadataNumOperands, [:pointer, :string], :uint

.get_named_metadata_operands(m, name, dest) ⇒ nil

Obtain the named metadata operands for a module.

The passed LLVMValueRef pointer should refer to an array of LLVMValueRef at least LLVMGetNamedMetadataNumOperands long. This array will be populated with the LLVMValueRef instances. Each instance corresponds to a llvm::MDNode.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)
• dest (FFI::Pointer(*ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Modulellvm::Module::getNamedMetadata()
• llvmllvm::MDNodellvm::MDNode::getOperand()

# File 'lib/llvm/core_ffi.rb', line 1156

attach_function :get_named_metadata_operands, :LLVMGetNamedMetadataOperands, [:pointer, :string, :pointer], :void

.get_next_basic_block(bb) ⇒ FFI::Pointer(BasicBlockRef)

Advance a basic block iterator.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

# File 'lib/llvm/core_ffi.rb', line 3941

attach_function :get_next_basic_block, :LLVMGetNextBasicBlock, [:pointer], :pointer

.get_next_function(fn) ⇒ FFI::Pointer(ValueRef)

Advance a Function iterator to the next Function.

Returns NULL if the iterator was already at the end and there are no more functions.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1225

attach_function :get_next_function, :LLVMGetNextFunction, [:pointer], :pointer

.get_next_global(global_var) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3424

attach_function :get_next_global, :LLVMGetNextGlobal, [:pointer], :pointer

.get_next_instruction(inst) ⇒ FFI::Pointer(ValueRef)

Obtain the instruction that occurs after the one specified.

The next instruction will be from the same basic block.

If this is the last instruction in a basic block, NULL will be returned.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4129

attach_function :get_next_instruction, :LLVMGetNextInstruction, [:pointer], :pointer

.get_next_param(arg) ⇒ FFI::Pointer(ValueRef)

Obtain the next parameter to a function.

This takes an LLVMValueRef obtained from LLVMGetFirstParam() (which is actually a wrapped iterator) and obtains the next parameter from the underlying iterator.

Parameters:

• arg (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3728

attach_function :get_next_param, :LLVMGetNextParam, [:pointer], :pointer

.get_next_target(t) ⇒ Target

Returns the next llvm::Target given a previous one (or null if there’s none)

Parameters:

• t (Target)

Returns:

• (Target)

# File 'lib/llvm/target_ffi.rb', line 444

attach_function :get_next_target, :LLVMGetNextTarget, [Target], Target

.get_next_use(u) ⇒ FFI::Pointer(UseRef)

Obtain the next use of a value.

This effectively advances the iterator. It returns NULL if you are on the final use and no more are available.

Parameters:

• u (FFI::Pointer(UseRef))

Returns:

• (FFI::Pointer(UseRef))

# File 'lib/llvm/core_ffi.rb', line 2534

attach_function :get_next_use, :LLVMGetNextUse, [:pointer], :pointer

.get_num_operands(val) ⇒ Integer

Obtain the number of operands in a llvm::User value.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Userllvm::User::getNumOperands()

# File 'lib/llvm/core_ffi.rb', line 2600

attach_function :get_num_operands, :LLVMGetNumOperands, [:pointer], :int

.get_num_successors(term) ⇒ Integer

Return the number of successors that this terminator has.

Parameters:

• term (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::TerminatorInstllvm::TerminatorInst::getNumSuccessors

# File 'lib/llvm/core_ffi.rb', line 4275

attach_function :get_num_successors, :LLVMGetNumSuccessors, [:pointer], :uint

.get_operand(val, index) ⇒ FFI::Pointer(ValueRef)

Obtain an operand at a specific index in a llvm::User value.

Parameters:

• val (FFI::Pointer(ValueRef))
• index (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Userllvm::User::getOperand()

# File 'lib/llvm/core_ffi.rb', line 2567

attach_function :get_operand, :LLVMGetOperand, [:pointer, :uint], :pointer

.get_operand_use(val, index) ⇒ FFI::Pointer(UseRef)

Obtain the use of an operand at a specific index in a llvm::User value.

Parameters:

• val (FFI::Pointer(ValueRef))
• index (Integer)

Returns:

• (FFI::Pointer(UseRef))

See Also:

• llvmllvm::Userllvm::User::getOperandUse()

# File 'lib/llvm/core_ffi.rb', line 2578

attach_function :get_operand_use, :LLVMGetOperandUse, [:pointer, :uint], :pointer

.get_ordering(memory_access_inst) ⇒ Symbol from _enum_atomic_ordering_

(Not documented)

Parameters:

• memory_access_inst (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_atomic_ordering_)

# File 'lib/llvm/core_ffi.rb', line 5137

attach_function :get_ordering, :LLVMGetOrdering, [:pointer], :atomic_ordering

.get_param(fn, index) ⇒ FFI::Pointer(ValueRef)

Obtain the parameter at the specified index.

Parameters are indexed from 0.

Parameters:

• fn (FFI::Pointer(ValueRef))
• index (Integer)

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Functionllvm::Function::arg_begin()

# File 'lib/llvm/core_ffi.rb', line 3682

attach_function :get_param, :LLVMGetParam, [:pointer, :uint], :pointer

.get_param_parent(inst) ⇒ FFI::Pointer(ValueRef)

Obtain the function to which this argument belongs.

Unlike other functions in this group, this one takes an LLVMValueRef that corresponds to a llvm::Attribute.

The returned LLVMValueRef is the llvm::Function to which this argument belongs.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3696

attach_function :get_param_parent, :LLVMGetParamParent, [:pointer], :pointer

.get_param_types(function_ty, dest) ⇒ nil

Obtain the types of a function’s parameters.

The Dest parameter should point to a pre-allocated array of LLVMTypeRef at least LLVMCountParamTypes() large. On return, the first LLVMCountParamTypes() entries in the array will be populated with LLVMTypeRef instances.

Parameters:

• FunctionTy —

  The function type to operate on.

• Dest —

  Memory address of an array to be filled with result.

• function_ty (FFI::Pointer(TypeRef))
• dest (FFI::Pointer(*TypeRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 1553

attach_function :get_param_types, :LLVMGetParamTypes, [:pointer, :pointer], :void

.get_params(fn, params) ⇒ nil

Obtain the parameters in a function.

The takes a pointer to a pre-allocated array of LLVMValueRef that is at least LLVMCountParams() long. This array will be filled with LLVMValueRef instances which correspond to the parameters the function receives. Each LLVMValueRef corresponds to a llvm::Argument instance.

Parameters:

• fn (FFI::Pointer(ValueRef))
• params (FFI::Pointer(*ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Functionllvm::Function::arg_begin()

# File 'lib/llvm/core_ffi.rb', line 3669

attach_function :get_params, :LLVMGetParams, [:pointer, :pointer], :void

.get_personality_fn(fn) ⇒ FFI::Pointer(ValueRef)

Obtain the personality function attached to the function.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Functionllvm::Function::getPersonalityFn()

# File 'lib/llvm/core_ffi.rb', line 3562

attach_function :get_personality_fn, :LLVMGetPersonalityFn, [:pointer], :pointer

.get_pointer_address_space(pointer_ty) ⇒ Integer

Obtain the address space of a pointer type.

This only works on types that represent pointers.

Parameters:

• pointer_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

See Also:

• llvmllvm::PointerTypellvm::PointerType::getAddressSpace()

# File 'lib/llvm/core_ffi.rb', line 1716

attach_function :get_pointer_address_space, :LLVMGetPointerAddressSpace, [:pointer], :uint

.get_pointer_to_global(ee, global) ⇒ FFI::Pointer(*Void)

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• global (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(*Void))

# File 'lib/llvm/execution_engine_ffi.rb', line 331

attach_function :get_pointer_to_global, :LLVMGetPointerToGlobal, [OpaqueExecutionEngine, :pointer], :pointer

.get_previous_basic_block(bb) ⇒ FFI::Pointer(BasicBlockRef)

Go backwards in a basic block iterator.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

# File 'lib/llvm/core_ffi.rb', line 3949

attach_function :get_previous_basic_block, :LLVMGetPreviousBasicBlock, [:pointer], :pointer

.get_previous_function(fn) ⇒ FFI::Pointer(ValueRef)

Decrement a Function iterator to the previous Function.

Returns NULL if the iterator was already at the beginning and there are no previous functions.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1236

attach_function :get_previous_function, :LLVMGetPreviousFunction, [:pointer], :pointer

.get_previous_global(global_var) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3432

attach_function :get_previous_global, :LLVMGetPreviousGlobal, [:pointer], :pointer

.get_previous_instruction(inst) ⇒ FFI::Pointer(ValueRef)

Obtain the instruction that occurred before this one.

If the instruction is the first instruction in a basic block, NULL will be returned.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 4140

attach_function :get_previous_instruction, :LLVMGetPreviousInstruction, [:pointer], :pointer

.get_previous_param(arg) ⇒ FFI::Pointer(ValueRef)

Obtain the previous parameter to a function.

This is the opposite of LLVMGetNextParam().

Parameters:

• arg (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3738

attach_function :get_previous_param, :LLVMGetPreviousParam, [:pointer], :pointer

.get_return_type(function_ty) ⇒ FFI::Pointer(TypeRef)

Obtain the Type this function Type returns.

Parameters:

• function_ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1528

attach_function :get_return_type, :LLVMGetReturnType, [:pointer], :pointer

.get_section(global) ⇒ String

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (String)

# File 'lib/llvm/core_ffi.rb', line 3279

attach_function :get_section, :LLVMGetSection, [:pointer], :string

.get_struct_element_types(struct_ty, dest) ⇒ nil

Get the elements within a structure.

The function is passed the address of a pre-allocated array of LLVMTypeRef at least LLVMCountStructElementTypes() long. After invocation, this array will be populated with the structure’s elements. The objects in the destination array will have a lifetime of the structure type itself, which is the lifetime of the context it is contained in.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))
• dest (FFI::Pointer(*TypeRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 1641

attach_function :get_struct_element_types, :LLVMGetStructElementTypes, [:pointer, :pointer], :void

.get_struct_name(ty) ⇒ String

Obtain the name of a structure.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (String)

See Also:

• llvmllvm::StructTypellvm::StructType::getName()

# File 'lib/llvm/core_ffi.rb', line 1602

attach_function :get_struct_name, :LLVMGetStructName, [:pointer], :string

.get_successor(term, i) ⇒ FFI::Pointer(BasicBlockRef)

Return the specified successor.

Parameters:

• term (FFI::Pointer(ValueRef))
• i (Integer)

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::TerminatorInstllvm::TerminatorInst::getSuccessor

# File 'lib/llvm/core_ffi.rb', line 4286

attach_function :get_successor, :LLVMGetSuccessor, [:pointer, :uint], :pointer

.get_switch_default_dest(switch_instr) ⇒ FFI::Pointer(BasicBlockRef)

Obtain the default destination basic block of a switch instruction.

This only works on llvm::SwitchInst instructions.

Parameters:

• switch_instr (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::SwitchInstllvm::SwitchInst::getDefaultDest()

# File 'lib/llvm/core_ffi.rb', line 4347

attach_function :get_switch_default_dest, :LLVMGetSwitchDefaultDest, [:pointer], :pointer

.get_target(m) ⇒ String

Obtain the target triple for a module.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (String)

See Also:

• Module::getTargetTriple()

# File 'lib/llvm/core_ffi.rb', line 1052

attach_function :get_target, :LLVMGetTarget, [:pointer], :string

.get_target_description(t) ⇒ String

Returns the description of a target. See llvm::Target::getDescription

Parameters:

• t (Target)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 481

attach_function :get_target_description, :LLVMGetTargetDescription, [Target], :string

.get_target_from_name(name) ⇒ Target

Finds the target corresponding to the given name and stores it in p T.

Returns 0 on success.

Parameters:

• name (String)

Returns:

• (Target)

# File 'lib/llvm/target_ffi.rb', line 453

attach_function :get_target_from_name, :LLVMGetTargetFromName, [:string], Target

.get_target_from_triple(triple, t, error_message) ⇒ Integer

Finds the target corresponding to the given triple and stores it in p T.

Returns 0 on success. Optionally returns any error in ErrorMessage.
Use LLVMDisposeMessage to dispose the message.

Parameters:

• triple (String)
• t (FFI::Pointer(*TargetRef))
• error_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 465

attach_function :get_target_from_triple, :LLVMGetTargetFromTriple, [:string, :pointer, :pointer], :int

.get_target_machine_cpu(t) ⇒ String

Returns the cpu used creating this target machine. See

llvm::TargetMachine::getCPU. The result needs to be disposed with
LLVMDisposeMessage.

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 556

attach_function :get_target_machine_cpu, :LLVMGetTargetMachineCPU, [OpaqueTargetMachine], :string

.get_target_machine_feature_string(t) ⇒ String

Returns the feature string used creating this target machine. See

llvm::TargetMachine::getFeatureString. The result needs to be disposed with
LLVMDisposeMessage.

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 566

attach_function :get_target_machine_feature_string, :LLVMGetTargetMachineFeatureString, [OpaqueTargetMachine], :string

.get_target_machine_target(t) ⇒ Target

Returns the Target used in a TargetMachine

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (Target)

# File 'lib/llvm/target_ffi.rb', line 536

attach_function :get_target_machine_target, :LLVMGetTargetMachineTarget, [OpaqueTargetMachine], Target

.get_target_machine_triple(t) ⇒ String

Returns the triple used creating this target machine. See

llvm::TargetMachine::getTriple. The result needs to be disposed with
LLVMDisposeMessage.

Parameters:

• t (OpaqueTargetMachine)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 546

attach_function :get_target_machine_triple, :LLVMGetTargetMachineTriple, [OpaqueTargetMachine], :string

.get_target_name(t) ⇒ String

Returns the name of a target. See llvm::Target::getName

Parameters:

• t (Target)

Returns:

• (String)

# File 'lib/llvm/target_ffi.rb', line 473

attach_function :get_target_name, :LLVMGetTargetName, [Target], :string

.get_thread_local_mode(global_var) ⇒ Symbol from _enum_thread_local_mode_

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_thread_local_mode_)

# File 'lib/llvm/core_ffi.rb', line 3499

attach_function :get_thread_local_mode, :LLVMGetThreadLocalMode, [:pointer], :thread_local_mode

.get_type_by_name(m, name) ⇒ FFI::Pointer(TypeRef)

Obtain a Type from a module by its registered name.

Parameters:

• m (FFI::Pointer(ModuleRef))
• name (String)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1127

attach_function :get_type_by_name, :LLVMGetTypeByName, [:pointer, :string], :pointer

.get_type_context(ty) ⇒ FFI::Pointer(ContextRef)

Obtain the context to which this type instance is associated.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ContextRef))

See Also:

• llvmllvm::Typellvm::Type::getContext()

# File 'lib/llvm/core_ffi.rb', line 1268

attach_function :get_type_context, :LLVMGetTypeContext, [:pointer], :pointer

.get_type_kind(ty) ⇒ Symbol from _enum_type_kind_

Obtain the enumerated type of a Type instance.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (Symbol from _enum_type_kind_)

See Also:

• llvm::Type:getTypeID()

# File 'lib/llvm/core_ffi.rb', line 1246

attach_function :get_type_kind, :LLVMGetTypeKind, [:pointer], :type_kind

.get_undef(ty) ⇒ FFI::Pointer(ValueRef)

Obtain a constant value referring to an undefined value of a type.

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::UndefValuellvm::UndefValue::get()

# File 'lib/llvm/core_ffi.rb', line 2633

attach_function :get_undef, :LLVMGetUndef, [:pointer], :pointer

.get_used_value(u) ⇒ FFI::Pointer(ValueRef)

Obtain the value this use corresponds to.

Parameters:

• u (FFI::Pointer(UseRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvm::Use::get().

# File 'lib/llvm/core_ffi.rb', line 2556

attach_function :get_used_value, :LLVMGetUsedValue, [:pointer], :pointer

.get_user(u) ⇒ FFI::Pointer(ValueRef)

Obtain the user value for a user.

The returned value corresponds to a llvm::User type.

Parameters:

• u (FFI::Pointer(UseRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Usellvm::Use::getUser()

# File 'lib/llvm/core_ffi.rb', line 2546

attach_function :get_user, :LLVMGetUser, [:pointer], :pointer

.get_value_name(val) ⇒ String

Obtain the string name of a value.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (String)

See Also:

• llvmllvm::Valuellvm::Value::getName()

# File 'lib/llvm/core_ffi.rb', line 1809

attach_function :get_value_name, :LLVMGetValueName, [:pointer], :string

.get_vector_size(vector_ty) ⇒ Integer

Obtain the number of elements in a vector type.

This only works on types that represent vectors.

Parameters:

• vector_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

See Also:

• llvmllvm::VectorTypellvm::VectorType::getNumElements()

# File 'lib/llvm/core_ffi.rb', line 1743

attach_function :get_vector_size, :LLVMGetVectorSize, [:pointer], :uint

.get_visibility(global) ⇒ Symbol from _enum_visibility_

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (Symbol from _enum_visibility_)

# File 'lib/llvm/core_ffi.rb', line 3296

attach_function :get_visibility, :LLVMGetVisibility, [:pointer], :visibility

.get_volatile(memory_access_inst) ⇒ Integer

(Not documented)

Parameters:

• memory_access_inst (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5120

attach_function :get_volatile, :LLVMGetVolatile, [:pointer], :int

.half_type ⇒ FFI::Pointer(TypeRef)

Obtain a floating point type from the global context.

These map to the functions in this group of the same name.

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1463

attach_function :half_type, :LLVMHalfType, [], :pointer

.half_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 16-bit floating point type from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1413

attach_function :half_type_in_context, :LLVMHalfTypeInContext, [:pointer], :pointer

.has_metadata(val) ⇒ Integer

Determine whether an instruction has any metadata attached.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 4087

attach_function :has_metadata, :LLVMHasMetadata, [:pointer], :int

.has_unnamed_addr(global) ⇒ Integer

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3330

attach_function :has_unnamed_addr, :LLVMHasUnnamedAddr, [:pointer], :int

.initialize_all_asm_parsers ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 76

attach_function :initialize_all_asm_parsers, :LLVMInitializeAllAsmParsers, [], :void

.initialize_all_asm_printers ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 69

attach_function :initialize_all_asm_printers, :LLVMInitializeAllAsmPrinters, [], :void

.initialize_all_disassemblers ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 83

attach_function :initialize_all_disassemblers, :LLVMInitializeAllDisassemblers, [], :void

.initialize_all_target_infos ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 48

attach_function :initialize_all_target_infos, :LLVMInitializeAllTargetInfos, [], :void

.initialize_all_target_m_cs ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 62

attach_function :initialize_all_target_m_cs, :LLVMInitializeAllTargetMCs, [], :void

.initialize_all_targets ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 55

attach_function :initialize_all_targets, :LLVMInitializeAllTargets, [], :void

.initialize_core(r) ⇒ nil

@}

Parameters:

• r (FFI::Pointer(PassRegistryRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 831

attach_function :initialize_core, :LLVMInitializeCore, [:pointer], :void

.initialize_function_pass_manager(fpm) ⇒ Integer

Initializes all of the function passes scheduled in the function pass

manager. Returns 1 if any of the passes modified the module, 0 otherwise.
@see llvm::FunctionPassManager::doInitialization

Parameters:

• fpm (FFI::Pointer(PassManagerRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5690

attach_function :initialize_function_pass_manager, :LLVMInitializeFunctionPassManager, [:pointer], :int

.initialize_mcjit_compiler_options(options, size_of_options) ⇒ nil

(Not documented)

Parameters:

• options (MCJITCompilerOptions)
• size_of_options (Integer)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 175

attach_function :initialize_mcjit_compiler_options, :LLVMInitializeMCJITCompilerOptions, [MCJITCompilerOptions, :ulong], :void

.initialize_native_asm_parser ⇒ Integer

(Not documented)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 97

attach_function :initialize_native_asm_parser, :LLVMInitializeNativeAsmParser, [], :int

.initialize_native_asm_printer ⇒ Integer

(Not documented)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 104

attach_function :initialize_native_asm_printer, :LLVMInitializeNativeAsmPrinter, [], :int

.initialize_native_disassembler ⇒ Integer

(Not documented)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 111

attach_function :initialize_native_disassembler, :LLVMInitializeNativeDisassembler, [], :int

.initialize_native_target ⇒ Integer

(Not documented)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 90

attach_function :initialize_native_target, :LLVMInitializeNativeTarget, [], :int

.insert_basic_block(insert_before_bb, name) ⇒ FFI::Pointer(BasicBlockRef)

Insert a basic block in a function using the global context.

Parameters:

• insert_before_bb (FFI::Pointer(BasicBlockRef))
• name (String)

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::Create()

# File 'lib/llvm/core_ffi.rb', line 4010

attach_function :insert_basic_block, :LLVMInsertBasicBlock, [:pointer, :string], :pointer

.insert_basic_block_in_context(c, bb, name) ⇒ FFI::Pointer(BasicBlockRef)

Insert a basic block in a function before another basic block.

The function to add to is determined by the function of the passed basic block.

Parameters:

• c (FFI::Pointer(ContextRef))
• bb (FFI::Pointer(BasicBlockRef))
• name (String)

Returns:

• (FFI::Pointer(BasicBlockRef))

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::Create()

# File 'lib/llvm/core_ffi.rb', line 3999

attach_function :insert_basic_block_in_context, :LLVMInsertBasicBlockInContext, [:pointer, :pointer, :string], :pointer

.insert_into_builder(builder, instr) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• instr (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4457

attach_function :insert_into_builder, :LLVMInsertIntoBuilder, [:pointer, :pointer], :void

.insert_into_builder_with_name(builder, instr, name) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• instr (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4467

attach_function :insert_into_builder_with_name, :LLVMInsertIntoBuilderWithName, [:pointer, :pointer, :string], :void

.instruction_clone(inst) ⇒ FFI::Pointer(ValueRef)

Create a copy of ‘this’ instruction that is identical in all ways except the following:

* The instruction has no parent
* The instruction has no name

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

See Also:

• llvmllvm::Instructionllvm::Instruction::clone()

# File 'lib/llvm/core_ffi.rb', line 4202

attach_function :instruction_clone, :LLVMInstructionClone, [:pointer], :pointer

.instruction_erase_from_parent(inst) ⇒ nil

Remove and delete an instruction.

The instruction specified is removed from its containing building block and then deleted.

Parameters:

• inst (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Instructionllvm::Instruction::eraseFromParent()

# File 'lib/llvm/core_ffi.rb', line 4153

attach_function :instruction_erase_from_parent, :LLVMInstructionEraseFromParent, [:pointer], :void

.int128_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1389

attach_function :int128_type, :LLVMInt128Type, [], :pointer

.int128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1337

attach_function :int128_type_in_context, :LLVMInt128TypeInContext, [:pointer], :pointer

.int16_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1368

attach_function :int16_type, :LLVMInt16Type, [], :pointer

.int16_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1313

attach_function :int16_type_in_context, :LLVMInt16TypeInContext, [:pointer], :pointer

.int1_type ⇒ FFI::Pointer(TypeRef)

Obtain an integer type from the global context with a specified bit width.

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1354

attach_function :int1_type, :LLVMInt1Type, [], :pointer

.int1_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain an integer type from a context with specified bit width.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1297

attach_function :int1_type_in_context, :LLVMInt1TypeInContext, [:pointer], :pointer

.int32_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1375

attach_function :int32_type, :LLVMInt32Type, [], :pointer

.int32_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1321

attach_function :int32_type_in_context, :LLVMInt32TypeInContext, [:pointer], :pointer

.int64_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1382

attach_function :int64_type, :LLVMInt64Type, [], :pointer

.int64_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1329

attach_function :int64_type_in_context, :LLVMInt64TypeInContext, [:pointer], :pointer

.int8_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1361

attach_function :int8_type, :LLVMInt8Type, [], :pointer

.int8_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1305

attach_function :int8_type_in_context, :LLVMInt8TypeInContext, [:pointer], :pointer

.int_ptr_type(td) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• td (OpaqueTargetData)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/target_ffi.rb', line 194

attach_function :int_ptr_type, :LLVMIntPtrType, [OpaqueTargetData], :pointer

.int_ptr_type_for_as(td, as) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• td (OpaqueTargetData)
• as (Integer)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/target_ffi.rb', line 203

attach_function :int_ptr_type_for_as, :LLVMIntPtrTypeForAS, [OpaqueTargetData, :uint], :pointer

.int_ptr_type_for_as_in_context(c, td, as) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))
• td (OpaqueTargetData)
• as (Integer)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/target_ffi.rb', line 222

attach_function :int_ptr_type_for_as_in_context, :LLVMIntPtrTypeForASInContext, [:pointer, OpaqueTargetData, :uint], :pointer

.int_ptr_type_in_context(c, td) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))
• td (OpaqueTargetData)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/target_ffi.rb', line 212

attach_function :int_ptr_type_in_context, :LLVMIntPtrTypeInContext, [:pointer, OpaqueTargetData], :pointer

.int_type(num_bits) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• num_bits (Integer)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1397

attach_function :int_type, :LLVMIntType, [:uint], :pointer

.int_type_in_context(c, num_bits) ⇒ FFI::Pointer(TypeRef)

(Not documented)

Parameters:

• c (FFI::Pointer(ContextRef))
• num_bits (Integer)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1346

attach_function :int_type_in_context, :LLVMIntTypeInContext, [:pointer, :uint], :pointer

.is_a_addr_space_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2372

attach_function :is_a_addr_space_cast_inst, :LLVMIsAAddrSpaceCastInst, [:pointer], :pointer

.is_a_alloca_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2356

attach_function :is_a_alloca_inst, :LLVMIsAAllocaInst, [:pointer], :pointer

.is_a_argument(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1876

attach_function :is_a_argument, :LLVMIsAArgument, [:pointer], :pointer

.is_a_basic_block(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1884

attach_function :is_a_basic_block, :LLVMIsABasicBlock, [:pointer], :pointer

.is_a_binary_operator(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2076

attach_function :is_a_binary_operator, :LLVMIsABinaryOperator, [:pointer], :pointer

.is_a_bit_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2380

attach_function :is_a_bit_cast_inst, :LLVMIsABitCastInst, [:pointer], :pointer

.is_a_block_address(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1916

attach_function :is_a_block_address, :LLVMIsABlockAddress, [:pointer], :pointer

.is_a_branch_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2252

attach_function :is_a_branch_inst, :LLVMIsABranchInst, [:pointer], :pointer

.is_a_call_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2084

attach_function :is_a_call_inst, :LLVMIsACallInst, [:pointer], :pointer

.is_a_cast_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2364

attach_function :is_a_cast_inst, :LLVMIsACastInst, [:pointer], :pointer

.is_a_catch_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2332

attach_function :is_a_catch_pad_inst, :LLVMIsACatchPadInst, [:pointer], :pointer

.is_a_catch_return_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2316

attach_function :is_a_catch_return_inst, :LLVMIsACatchReturnInst, [:pointer], :pointer

.is_a_cleanup_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2340

attach_function :is_a_cleanup_pad_inst, :LLVMIsACleanupPadInst, [:pointer], :pointer

.is_a_cleanup_return_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2308

attach_function :is_a_cleanup_return_inst, :LLVMIsACleanupReturnInst, [:pointer], :pointer

.is_a_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2148

attach_function :is_a_cmp_inst, :LLVMIsACmpInst, [:pointer], :pointer

.is_a_constant(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1908

attach_function :is_a_constant, :LLVMIsAConstant, [:pointer], :pointer

.is_a_constant_aggregate_zero(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1924

attach_function :is_a_constant_aggregate_zero, :LLVMIsAConstantAggregateZero, [:pointer], :pointer

.is_a_constant_array(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1932

attach_function :is_a_constant_array, :LLVMIsAConstantArray, [:pointer], :pointer

.is_a_constant_data_array(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1948

attach_function :is_a_constant_data_array, :LLVMIsAConstantDataArray, [:pointer], :pointer

.is_a_constant_data_sequential(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1940

attach_function :is_a_constant_data_sequential, :LLVMIsAConstantDataSequential, [:pointer], :pointer

.is_a_constant_data_vector(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1956

attach_function :is_a_constant_data_vector, :LLVMIsAConstantDataVector, [:pointer], :pointer

.is_a_constant_expr(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1964

attach_function :is_a_constant_expr, :LLVMIsAConstantExpr, [:pointer], :pointer

.is_a_constant_fp(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1972

attach_function :is_a_constant_fp, :LLVMIsAConstantFP, [:pointer], :pointer

.is_a_constant_int(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1980

attach_function :is_a_constant_int, :LLVMIsAConstantInt, [:pointer], :pointer

.is_a_constant_pointer_null(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1988

attach_function :is_a_constant_pointer_null, :LLVMIsAConstantPointerNull, [:pointer], :pointer

.is_a_constant_struct(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1996

attach_function :is_a_constant_struct, :LLVMIsAConstantStruct, [:pointer], :pointer

.is_a_constant_token_none(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2004

attach_function :is_a_constant_token_none, :LLVMIsAConstantTokenNone, [:pointer], :pointer

.is_a_constant_vector(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2012

attach_function :is_a_constant_vector, :LLVMIsAConstantVector, [:pointer], :pointer

.is_a_dbg_declare_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2108

attach_function :is_a_dbg_declare_inst, :LLVMIsADbgDeclareInst, [:pointer], :pointer

.is_a_dbg_info_intrinsic(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2100

attach_function :is_a_dbg_info_intrinsic, :LLVMIsADbgInfoIntrinsic, [:pointer], :pointer

.is_a_extract_element_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2172

attach_function :is_a_extract_element_inst, :LLVMIsAExtractElementInst, [:pointer], :pointer

.is_a_extract_value_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2476

attach_function :is_a_extract_value_inst, :LLVMIsAExtractValueInst, [:pointer], :pointer

.is_a_funclet_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2324

attach_function :is_a_funclet_pad_inst, :LLVMIsAFuncletPadInst, [:pointer], :pointer

.is_a_function(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2044

attach_function :is_a_function, :LLVMIsAFunction, [:pointer], :pointer

.is_a_get_element_ptr_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2180

attach_function :is_a_get_element_ptr_inst, :LLVMIsAGetElementPtrInst, [:pointer], :pointer

.is_a_global_alias(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2028

attach_function :is_a_global_alias, :LLVMIsAGlobalAlias, [:pointer], :pointer

.is_a_global_object(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2036

attach_function :is_a_global_object, :LLVMIsAGlobalObject, [:pointer], :pointer

.is_a_global_value(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2020

attach_function :is_a_global_value, :LLVMIsAGlobalValue, [:pointer], :pointer

.is_a_global_variable(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2052

attach_function :is_a_global_variable, :LLVMIsAGlobalVariable, [:pointer], :pointer

.is_a_indirect_br_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2260

attach_function :is_a_indirect_br_inst, :LLVMIsAIndirectBrInst, [:pointer], :pointer

.is_a_inline_asm(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1892

attach_function :is_a_inline_asm, :LLVMIsAInlineAsm, [:pointer], :pointer

.is_a_insert_element_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2188

attach_function :is_a_insert_element_inst, :LLVMIsAInsertElementInst, [:pointer], :pointer

.is_a_insert_value_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2196

attach_function :is_a_insert_value_inst, :LLVMIsAInsertValueInst, [:pointer], :pointer

.is_a_instruction(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2068

attach_function :is_a_instruction, :LLVMIsAInstruction, [:pointer], :pointer

.is_a_int_to_ptr_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2420

attach_function :is_a_int_to_ptr_inst, :LLVMIsAIntToPtrInst, [:pointer], :pointer

.is_a_intrinsic_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2092

attach_function :is_a_intrinsic_inst, :LLVMIsAIntrinsicInst, [:pointer], :pointer

.is_a_invoke_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2268

attach_function :is_a_invoke_inst, :LLVMIsAInvokeInst, [:pointer], :pointer

.is_a_landing_pad_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2204

attach_function :is_a_landing_pad_inst, :LLVMIsALandingPadInst, [:pointer], :pointer

.is_a_load_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2484

attach_function :is_a_load_inst, :LLVMIsALoadInst, [:pointer], :pointer

.is_a_mem_cpy_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2124

attach_function :is_a_mem_cpy_inst, :LLVMIsAMemCpyInst, [:pointer], :pointer

.is_a_mem_intrinsic(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2116

attach_function :is_a_mem_intrinsic, :LLVMIsAMemIntrinsic, [:pointer], :pointer

.is_a_mem_move_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2132

attach_function :is_a_mem_move_inst, :LLVMIsAMemMoveInst, [:pointer], :pointer

.is_a_mem_set_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2140

attach_function :is_a_mem_set_inst, :LLVMIsAMemSetInst, [:pointer], :pointer

.is_a_ptr_to_int_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2428

attach_function :is_a_ptr_to_int_inst, :LLVMIsAPtrToIntInst, [:pointer], :pointer

.is_a_resume_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2300

attach_function :is_a_resume_inst, :LLVMIsAResumeInst, [:pointer], :pointer

.is_a_return_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2276

attach_function :is_a_return_inst, :LLVMIsAReturnInst, [:pointer], :pointer

.is_a_select_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2220

attach_function :is_a_select_inst, :LLVMIsASelectInst, [:pointer], :pointer

.is_a_shuffle_vector_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2228

attach_function :is_a_shuffle_vector_inst, :LLVMIsAShuffleVectorInst, [:pointer], :pointer

.is_a_store_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2236

attach_function :is_a_store_inst, :LLVMIsAStoreInst, [:pointer], :pointer

.is_a_switch_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2284

attach_function :is_a_switch_inst, :LLVMIsASwitchInst, [:pointer], :pointer

.is_a_terminator_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2244

attach_function :is_a_terminator_inst, :LLVMIsATerminatorInst, [:pointer], :pointer

.is_a_trunc_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2452

attach_function :is_a_trunc_inst, :LLVMIsATruncInst, [:pointer], :pointer

.is_a_unary_instruction(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2348

attach_function :is_a_unary_instruction, :LLVMIsAUnaryInstruction, [:pointer], :pointer

.is_a_undef_value(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2060

attach_function :is_a_undef_value, :LLVMIsAUndefValue, [:pointer], :pointer

.is_a_unreachable_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2292

attach_function :is_a_unreachable_inst, :LLVMIsAUnreachableInst, [:pointer], :pointer

.is_a_user(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 1900

attach_function :is_a_user, :LLVMIsAUser, [:pointer], :pointer

.is_af_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2156

attach_function :is_af_cmp_inst, :LLVMIsAFCmpInst, [:pointer], :pointer

.is_afp_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2388

attach_function :is_afp_ext_inst, :LLVMIsAFPExtInst, [:pointer], :pointer

.is_afp_to_si_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2396

attach_function :is_afp_to_si_inst, :LLVMIsAFPToSIInst, [:pointer], :pointer

.is_afp_to_ui_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2404

attach_function :is_afp_to_ui_inst, :LLVMIsAFPToUIInst, [:pointer], :pointer

.is_afp_trunc_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2412

attach_function :is_afp_trunc_inst, :LLVMIsAFPTruncInst, [:pointer], :pointer

.is_ai_cmp_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2164

attach_function :is_ai_cmp_inst, :LLVMIsAICmpInst, [:pointer], :pointer

.is_amd_node(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2500

attach_function :is_amd_node, :LLVMIsAMDNode, [:pointer], :pointer

.is_amd_string(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2508

attach_function :is_amd_string, :LLVMIsAMDString, [:pointer], :pointer

.is_aphi_node(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2212

attach_function :is_aphi_node, :LLVMIsAPHINode, [:pointer], :pointer

.is_as_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2436

attach_function :is_as_ext_inst, :LLVMIsASExtInst, [:pointer], :pointer

.is_asi_to_fp_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2444

attach_function :is_asi_to_fp_inst, :LLVMIsASIToFPInst, [:pointer], :pointer

.is_aui_to_fp_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2460

attach_function :is_aui_to_fp_inst, :LLVMIsAUIToFPInst, [:pointer], :pointer

.is_ava_arg_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2492

attach_function :is_ava_arg_inst, :LLVMIsAVAArgInst, [:pointer], :pointer

.is_az_ext_inst(val) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2468

attach_function :is_az_ext_inst, :LLVMIsAZExtInst, [:pointer], :pointer

.is_conditional(branch) ⇒ Integer

Return if a branch is conditional.

This only works on llvm::BranchInst instructions.

Parameters:

• branch (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::BranchInstllvm::BranchInst::isConditional

# File 'lib/llvm/core_ffi.rb', line 4310

attach_function :is_conditional, :LLVMIsConditional, [:pointer], :int

.is_constant(val) ⇒ Integer

Determine whether the specified constant instance is constant.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 1860

attach_function :is_constant, :LLVMIsConstant, [:pointer], :int

.is_constant_string(c) ⇒ Integer

Returns true if the specified constant is an array of i8.

Parameters:

• c (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• ConstantDataSequential::getAsString()

# File 'lib/llvm/core_ffi.rb', line 2814

attach_function :is_constant_string, :LLVMIsConstantString, [:pointer], :int

.is_declaration(global) ⇒ Integer

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3254

attach_function :is_declaration, :LLVMIsDeclaration, [:pointer], :int

.is_externally_initialized(global_var) ⇒ Integer

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3516

attach_function :is_externally_initialized, :LLVMIsExternallyInitialized, [:pointer], :int

.is_function_var_arg(function_ty) ⇒ Integer

Returns whether a function type is variadic.

Parameters:

• function_ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 1520

attach_function :is_function_var_arg, :LLVMIsFunctionVarArg, [:pointer], :int

.is_global_constant(global_var) ⇒ Integer

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3482

attach_function :is_global_constant, :LLVMIsGlobalConstant, [:pointer], :int

.is_literal_struct(struct_ty) ⇒ Bool

Determine whether a structure is literal.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))

Returns:

• (Bool)

See Also:

• llvmllvm::StructTypellvm::StructType::isLiteral()

# File 'lib/llvm/core.rb', line 147

attach_function :is_literal_struct, :LLVMIsLiteralStruct, [:pointer], :bool

.is_multithreaded ⇒ Integer

Check whether LLVM is executing in thread-safe mode or not.

@see llvm::llvm_is_multithreaded

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5747

attach_function :is_multithreaded, :LLVMIsMultithreaded, [], :int

.is_null(val) ⇒ Integer

Determine whether a value instance is null.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Constantllvm::Constant::isNullValue()

# File 'lib/llvm/core_ffi.rb', line 2643

attach_function :is_null, :LLVMIsNull, [:pointer], :int

.is_opaque_struct(struct_ty) ⇒ Bool

Determine whether a structure is opaque.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))

Returns:

• (Bool)

See Also:

• llvmllvm::StructTypellvm::StructType::isOpaque()

# File 'lib/llvm/core.rb', line 137

attach_function :is_opaque_struct, :LLVMIsOpaqueStruct, [:pointer], :bool

.is_packed_struct(struct_ty) ⇒ Bool

Determine whether a structure is packed.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))

Returns:

• (Bool)

See Also:

• llvmllvm::StructTypellvm::StructType::isPacked()

# File 'lib/llvm/core.rb', line 127

attach_function :is_packed_struct, :LLVMIsPackedStruct, [:pointer], :bool

.is_tail_call(call_inst) ⇒ Integer

Obtain whether a call instruction is a tail call.

This only works on llvm::CallInst instructions.

Parameters:

• call_inst (FFI::Pointer(ValueRef))

Returns:

• (Integer)

See Also:

• llvmllvm::CallInstllvm::CallInst::isTailCall()

# File 'lib/llvm/core_ffi.rb', line 4252

attach_function :is_tail_call, :LLVMIsTailCall, [:pointer], :int

.is_thread_local(global_var) ⇒ Integer

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3465

attach_function :is_thread_local, :LLVMIsThreadLocal, [:pointer], :int

.is_undef(val) ⇒ Integer

Determine whether a value instance is undefined.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 1868

attach_function :is_undef, :LLVMIsUndef, [:pointer], :int

.label_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1782

attach_function :label_type, :LLVMLabelType, [], :pointer

.label_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Create a label type in a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1759

attach_function :label_type_in_context, :LLVMLabelTypeInContext, [:pointer], :pointer

.link_in_interpreter ⇒ nil

(Not documented)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 30

attach_function :link_in_interpreter, :LLVMLinkInInterpreter, [], :void

.link_in_mcjit ⇒ nil

@{

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 23

attach_function :link_in_mcjit, :LLVMLinkInMCJIT, [], :void

.link_modules2(dest, src) ⇒ Integer

Links the source module into the destination module. The source module is destroyed. The return value is true if an error occurred, false otherwise. Use the diagnostic handler to get any diagnostic message.

Parameters:

• dest (FFI::Pointer(ModuleRef))
• src (FFI::Pointer(ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/linker_ffi.rb', line 43

attach_function :link_modules2, :LLVMLinkModules2, [:pointer, :pointer], :int

.load_library_permanently(filename) ⇒ Integer

(Not documented)

Parameters:

• filename (String)

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 25

attach_function :load_library_permanently, :LLVMLoadLibraryPermanently, [:string], :int

.md_node(vals, count) ⇒ FFI::Pointer(ValueRef)

Obtain a MDNode value from the global context.

Parameters:

• vals (FFI::Pointer(*ValueRef))
• count (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3796

attach_function :md_node, :LLVMMDNode, [:pointer, :uint], :pointer

.md_node_in_context(c, vals, count) ⇒ FFI::Pointer(ValueRef)

Obtain a MDNode value from a context.

The returned value corresponds to the llvm::MDNode class.

Parameters:

• c (FFI::Pointer(ContextRef))
• vals (FFI::Pointer(*ValueRef))
• count (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3787

attach_function :md_node_in_context, :LLVMMDNodeInContext, [:pointer, :pointer, :uint], :pointer

.md_string(str, s_len) ⇒ FFI::Pointer(ValueRef)

Obtain a MDString value from the global context.

Parameters:

• str (String)
• s_len (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3775

attach_function :md_string, :LLVMMDString, [:string, :uint], :pointer

.md_string_in_context(c, str, s_len) ⇒ FFI::Pointer(ValueRef)

Obtain a MDString value from a context.

The returned instance corresponds to the llvm::MDString class.

The instance is specified by string data of a specified length. The string content is copied, so the backing memory can be freed after this function returns.

Parameters:

• c (FFI::Pointer(ContextRef))
• str (String)
• s_len (Integer)

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 3766

attach_function :md_string_in_context, :LLVMMDStringInContext, [:pointer, :string, :uint], :pointer

.module_create_with_name(module_id) ⇒ FFI::Pointer(ModuleRef)

Create a new, empty module in the global context.

This is equivalent to calling LLVMModuleCreateWithNameInContext with LLVMGetGlobalContext() as the context parameter.

Every invocation should be paired with LLVMDisposeModule() or memory will be leaked.

Parameters:

• module_id (String)

Returns:

• (FFI::Pointer(ModuleRef))

# File 'lib/llvm/core_ffi.rb', line 990

attach_function :module_create_with_name, :LLVMModuleCreateWithName, [:string], :pointer

.module_create_with_name_in_context(module_id, c) ⇒ FFI::Pointer(ModuleRef)

Create a new, empty module in a specific context.

Every invocation should be paired with LLVMDisposeModule() or memory will be leaked.

Parameters:

• module_id (String)
• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(ModuleRef))

# File 'lib/llvm/core_ffi.rb', line 1002

attach_function :module_create_with_name_in_context, :LLVMModuleCreateWithNameInContext, [:string, :pointer], :pointer

.move_basic_block_after(bb, move_pos) ⇒ nil

Move a basic block to after another one.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))
• move_pos (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::moveAfter()

# File 'lib/llvm/core_ffi.rb', line 4058

attach_function :move_basic_block_after, :LLVMMoveBasicBlockAfter, [:pointer, :pointer], :void

.move_basic_block_before(bb, move_pos) ⇒ nil

Move a basic block to before another one.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))
• move_pos (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::moveBefore()

# File 'lib/llvm/core_ffi.rb', line 4047

attach_function :move_basic_block_before, :LLVMMoveBasicBlockBefore, [:pointer, :pointer], :void

.offset_of_element(td, struct_ty, element) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• struct_ty (FFI::Pointer(TypeRef))
• element (Integer)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 305

attach_function :offset_of_element, :LLVMOffsetOfElement, [OpaqueTargetData, :pointer, :uint], :ulong_long

.parse_bitcode(mem_buf, out_module, out_message) ⇒ Integer

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_module (FFI::Pointer(*ModuleRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 23

attach_function :parse_bitcode, :LLVMParseBitcode, [:pointer, :pointer, :pointer], :int

.parse_bitcode2(mem_buf, out_module) ⇒ Integer

(Not documented)

Parameters:

• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_module (FFI::Pointer(*ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 32

attach_function :parse_bitcode2, :LLVMParseBitcode2, [:pointer, :pointer], :int

.parse_bitcode_in_context(context_ref, mem_buf, out_module, out_message) ⇒ Integer

(Not documented)

Parameters:

• context_ref (FFI::Pointer(ContextRef))
• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_module (FFI::Pointer(*ModuleRef))
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 43

attach_function :parse_bitcode_in_context, :LLVMParseBitcodeInContext, [:pointer, :pointer, :pointer, :pointer], :int

.parse_bitcode_in_context2(context_ref, mem_buf, out_module) ⇒ Integer

(Not documented)

Parameters:

• context_ref (FFI::Pointer(ContextRef))
• mem_buf (FFI::Pointer(MemoryBufferRef))
• out_module (FFI::Pointer(*ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 53

attach_function :parse_bitcode_in_context2, :LLVMParseBitcodeInContext2, [:pointer, :pointer, :pointer], :int

.parse_command_line_options(argc, argv, overview) ⇒ nil

This function parses the given arguments using the LLVM command line parser. Note that the only stable thing about this function is its signature; you cannot rely on any particular set of command line arguments being interpreted the same way across LLVM versions.

Parameters:

• argc (Integer)
• argv (FFI::Pointer(**CharS))
• overview (String)

Returns:

• (nil)

See Also:

• llvmllvm::clllvm::cl::ParseCommandLineOptions()

# File 'lib/llvm/core_ffi.rb', line 40

attach_function :parse_command_line_options, :LLVMParseCommandLineOptions, [:int, :pointer, :string], :void

.pointer_size(td) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 177

attach_function :pointer_size, :LLVMPointerSize, [OpaqueTargetData], :uint

.pointer_size_for_as(td, as) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• as (Integer)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 186

attach_function :pointer_size_for_as, :LLVMPointerSizeForAS, [OpaqueTargetData, :uint], :uint

.pointer_type(element_type, address_space) ⇒ FFI::Pointer(TypeRef)

Create a pointer type that points to a defined type.

The created type will exist in the context that its pointee type exists in.

Parameters:

• element_type (FFI::Pointer(TypeRef))
• address_space (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::PointerTypellvm::PointerType::get()

# File 'lib/llvm/core_ffi.rb', line 1704

attach_function :pointer_type, :LLVMPointerType, [:pointer, :uint], :pointer

.position_builder(builder, block, instr) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• block (FFI::Pointer(BasicBlockRef))
• instr (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4414

attach_function :position_builder, :LLVMPositionBuilder, [:pointer, :pointer, :pointer], :void

.position_builder_at_end(builder, block) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• block (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4432

attach_function :position_builder_at_end, :LLVMPositionBuilderAtEnd, [:pointer, :pointer], :void

.position_builder_before(builder, instr) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• instr (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4423

attach_function :position_builder_before, :LLVMPositionBuilderBefore, [:pointer, :pointer], :void

.ppcfp128_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1498

attach_function :ppcfp128_type, :LLVMPPCFP128Type, [], :pointer

.ppcfp128_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 128-bit floating point type (two 64-bits) from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1454

attach_function :ppcfp128_type_in_context, :LLVMPPCFP128TypeInContext, [:pointer], :pointer

.preferred_alignment_of_global(td, global_var) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• global_var (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 285

attach_function :preferred_alignment_of_global, :LLVMPreferredAlignmentOfGlobal, [OpaqueTargetData, :pointer], :uint

.preferred_alignment_of_type(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 276

attach_function :preferred_alignment_of_type, :LLVMPreferredAlignmentOfType, [OpaqueTargetData, :pointer], :uint

.print_module_to_file(m, filename, error_message) ⇒ Integer

Print a representation of a module to a file. The ErrorMessage needs to be disposed with LLVMDisposeMessage. Returns 0 on success, 1 otherwise.

Parameters:

• m (FFI::Pointer(ModuleRef))
• filename (String)
• error_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

See Also:

• Module::print()

# File 'lib/llvm/core_ffi.rb', line 1086

attach_function :print_module_to_file, :LLVMPrintModuleToFile, [:pointer, :string, :pointer], :int

.print_module_to_string(m) ⇒ String

Return a string representation of the module. Use LLVMDisposeMessage to free the string.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (String)

See Also:

• Module::print()

# File 'lib/llvm/core_ffi.rb', line 1097

attach_function :print_module_to_string, :LLVMPrintModuleToString, [:pointer], :string

.print_type_to_string(val) ⇒ String

Return a string representation of the type. Use LLVMDisposeMessage to free the string.

Parameters:

• val (FFI::Pointer(TypeRef))

Returns:

• (String)

See Also:

• llvmllvm::Typellvm::Type::print()

# File 'lib/llvm/core_ffi.rb', line 1289

attach_function :print_type_to_string, :LLVMPrintTypeToString, [:pointer], :string

.print_value_to_string(val) ⇒ String

Return a string representation of the value. Use LLVMDisposeMessage to free the string.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (String)

See Also:

• llvmllvm::Valuellvm::Value::print()

# File 'lib/llvm/core_ffi.rb', line 1841

attach_function :print_value_to_string, :LLVMPrintValueToString, [:pointer], :string

.recompile_and_relink_function(ee, fn) ⇒ FFI::Pointer(*Void)

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• fn (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(*Void))

# File 'lib/llvm/execution_engine_ffi.rb', line 296

attach_function :recompile_and_relink_function, :LLVMRecompileAndRelinkFunction, [OpaqueExecutionEngine, :pointer], :pointer

.remove_basic_block_from_parent(bb) ⇒ nil

Remove a basic block from a function.

This deletes the basic block from its containing function but keep the basic block alive.

Parameters:

• bb (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

See Also:

• llvmllvm::BasicBlockllvm::BasicBlock::removeFromParent()

# File 'lib/llvm/core_ffi.rb', line 4036

attach_function :remove_basic_block_from_parent, :LLVMRemoveBasicBlockFromParent, [:pointer], :void

.remove_module(ee, m, out_mod, out_error) ⇒ Integer

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• m (FFI::Pointer(ModuleRef))
• out_mod (FFI::Pointer(*ModuleRef))
• out_error (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 277

attach_function :remove_module, :LLVMRemoveModule, [OpaqueExecutionEngine, :pointer, :pointer, :pointer], :int

.replace_all_uses_with(old_val, new_val) ⇒ nil

Replace all uses of a value with another one.

Parameters:

• old_val (FFI::Pointer(ValueRef))
• new_val (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Valuellvm::Value::replaceAllUsesWith()

# File 'lib/llvm/core_ffi.rb', line 1852

attach_function :replace_all_uses_with, :LLVMReplaceAllUsesWith, [:pointer, :pointer], :void

.run_function(ee, f, num_args, args) ⇒ OpaqueGenericValue

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• f (FFI::Pointer(ValueRef))
• num_args (Integer)
• args (FFI::Pointer(*GenericValueRef))

Returns:

• (OpaqueGenericValue)

# File 'lib/llvm/execution_engine_ffi.rb', line 248

attach_function :run_function, :LLVMRunFunction, [OpaqueExecutionEngine, :pointer, :uint, :pointer], OpaqueGenericValue

.run_function_as_main(ee, f, arg_c, arg_v, env_p) ⇒ Integer

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)
• f (FFI::Pointer(ValueRef))
• arg_c (Integer)
• arg_v (FFI::Pointer(**CharS))
• env_p (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/execution_engine_ffi.rb', line 237

attach_function :run_function_as_main, :LLVMRunFunctionAsMain, [OpaqueExecutionEngine, :pointer, :uint, :pointer, :pointer], :int

.run_function_pass_manager(fpm, f) ⇒ Integer

Executes all of the function passes scheduled in the function pass manager

on the provided function. Returns 1 if any of the passes modified the
function, false otherwise.
@see llvm::FunctionPassManager::run(Function&)

Parameters:

• fpm (FFI::Pointer(PassManagerRef))
• f (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5702

attach_function :run_function_pass_manager, :LLVMRunFunctionPassManager, [:pointer, :pointer], :int

.run_pass_manager(pm, m) ⇒ Integer

Initializes, executes on the provided module, and finalizes all of the

passes scheduled in the pass manager. Returns 1 if any of the passes
modified the module, 0 otherwise.
@see llvm::PassManager::run(Module&)

Parameters:

• pm (FFI::Pointer(PassManagerRef))
• m (FFI::Pointer(ModuleRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5680

attach_function :run_pass_manager, :LLVMRunPassManager, [:pointer, :pointer], :int

.run_passes(pmb, opt_level) ⇒ nil

/**

* Construct and run a set of passes over a module
*
* This function takes a string with the passes that should be used. The format
* of this string is the same as opt's -passes argument for the new pass
* manager. Individual passes may be specified, separated by commas. Full
* pipelines may also be invoked using `default<O3>` and friends. See opt for
* full reference of the Passes format.
*/

LLVMErrorRef LLVMRunPasses(LLVMModuleRef M, const char *Passes,

LLVMTargetMachineRef TM,
LLVMPassBuilderOptionsRef Options);

Parameters:

• pmb (OpaquePassManagerBuilder)
• opt_level (Integer)

Returns:

• (nil)

# File 'lib/llvm/transforms/pass_builder.rb', line 709

attach_function :run_passes, :LLVMRunPasses, [:pointer, :string, :pointer, :pointer], :pointer

.run_static_constructors(ee) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 217

attach_function :run_static_constructors, :LLVMRunStaticConstructors, [OpaqueExecutionEngine], :void

.run_static_destructors(ee) ⇒ nil

(Not documented)

Parameters:

• ee (OpaqueExecutionEngine)

Returns:

• (nil)

# File 'lib/llvm/execution_engine_ffi.rb', line 225

attach_function :run_static_destructors, :LLVMRunStaticDestructors, [OpaqueExecutionEngine], :void

.search_for_address_of_symbol(symbol_name) ⇒ FFI::Pointer(*Void)

(Not documented)

Parameters:

• symbol_name (String)

Returns:

• (FFI::Pointer(*Void))

# File 'lib/llvm/core_ffi.rb', line 48

attach_function :search_for_address_of_symbol, :LLVMSearchForAddressOfSymbol, [:string], :pointer

.set_alignment(v, bytes) ⇒ nil

Set the preferred alignment of the value.

Parameters:

• v (FFI::Pointer(ValueRef))
• bytes (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::AllocaInstllvm::AllocaInst::setAlignment()
• llvmllvm::LoadInstllvm::LoadInst::setAlignment()
• llvmllvm::StoreInstllvm::StoreInst::setAlignment()
• llvmllvm::GlobalValuellvm::GlobalValue::setAlignment()

# File 'lib/llvm/core_ffi.rb', line 3364

attach_function :set_alignment, :LLVMSetAlignment, [:pointer, :uint], :void

.set_cleanup(landing_pad, val) ⇒ nil

Set the ‘cleanup’ flag in the landingpad instruction

Parameters:

• landing_pad (FFI::Pointer(ValueRef))
• val (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4649

attach_function :set_cleanup, :LLVMSetCleanup, [:pointer, :int], :void

.set_condition(branch, cond) ⇒ nil

Set the condition of a branch instruction.

This only works on llvm::BranchInst instructions.

Parameters:

• branch (FFI::Pointer(ValueRef))
• cond (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::BranchInstllvm::BranchInst::setCondition

# File 'lib/llvm/core_ffi.rb', line 4335

attach_function :set_condition, :LLVMSetCondition, [:pointer, :pointer], :void

.set_current_debug_location(builder, l) ⇒ nil

Metadata

Parameters:

• builder (FFI::Pointer(BuilderRef))
• l (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4484

attach_function :set_current_debug_location, :LLVMSetCurrentDebugLocation, [:pointer, :pointer], :void

.set_data_layout(m, triple) ⇒ nil

Set the data layout for a module.

Parameters:

• m (FFI::Pointer(ModuleRef))
• triple (String)

Returns:

• (nil)

See Also:

• Module::setDataLayout()

# File 'lib/llvm/core_ffi.rb', line 1042

attach_function :set_data_layout, :LLVMSetDataLayout, [:pointer, :string], :void

.set_dll_storage_class(global, class_) ⇒ nil

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))
• class_ (Symbol from _enum_dll_storage_class_)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3322

attach_function :set_dll_storage_class, :LLVMSetDLLStorageClass, [:pointer, :dll_storage_class], :void

.set_externally_initialized(global_var, is_ext_init) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))
• is_ext_init (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3525

attach_function :set_externally_initialized, :LLVMSetExternallyInitialized, [:pointer, :int], :void

.set_function_call_conv(fn, cc) ⇒ nil

Set the calling convention of a function.

Parameters:

• Fn —

  Function to operate on

• CC —

  LLVMCallConv to set calling convention to

• fn (FFI::Pointer(ValueRef))
• cc (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::Functionllvm::Function::setCallingConv()

# File 'lib/llvm/core_ffi.rb', line 3609

attach_function :set_function_call_conv, :LLVMSetFunctionCallConv, [:pointer, :uint], :void

.set_gc(fn, name) ⇒ nil

Define the garbage collector to use during code generation.

Parameters:

• fn (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (nil)

See Also:

• llvmllvm::Functionllvm::Function::setGC()

# File 'lib/llvm/core_ffi.rb', line 3631

attach_function :set_gc, :LLVMSetGC, [:pointer, :string], :void

.set_global_constant(global_var, is_constant) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))
• is_constant (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3491

attach_function :set_global_constant, :LLVMSetGlobalConstant, [:pointer, :int], :void

.set_initializer(global_var, constant_val) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))
• constant_val (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3457

attach_function :set_initializer, :LLVMSetInitializer, [:pointer, :pointer], :void

.set_inst_debug_location(builder, inst) ⇒ nil

(Not documented)

Parameters:

• builder (FFI::Pointer(BuilderRef))
• inst (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4501

attach_function :set_inst_debug_location, :LLVMSetInstDebugLocation, [:pointer, :pointer], :void

.set_instr_param_alignment(instr, index, align) ⇒ nil

(Not documented)

Parameters:

• instr (FFI::Pointer(ValueRef))
• index (Integer)
• align (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4240

attach_function :set_instr_param_alignment, :LLVMSetInstrParamAlignment, [:pointer, :uint, :uint], :void

.set_instruction_call_conv(instr, cc) ⇒ nil

Set the calling convention for a call instruction.

This expects an LLVMValueRef that corresponds to a llvm::CallInst or llvm::InvokeInst.

Parameters:

• instr (FFI::Pointer(ValueRef))
• cc (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::CallInstllvm::CallInst::setCallingConv()
• llvmllvm::InvokeInstllvm::InvokeInst::setCallingConv()

# File 'lib/llvm/core_ffi.rb', line 4217

attach_function :set_instruction_call_conv, :LLVMSetInstructionCallConv, [:pointer, :uint], :void

.set_linkage(global, linkage) ⇒ nil

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))
• linkage (Symbol from _enum_linkage_)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3271

attach_function :set_linkage, :LLVMSetLinkage, [:pointer, :linkage], :void

.set_metadata(val, kind_id, node) ⇒ nil

Set metadata associated with an instruction value.

Parameters:

• val (FFI::Pointer(ValueRef))
• kind_id (Integer)
• node (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 4106

attach_function :set_metadata, :LLVMSetMetadata, [:pointer, :uint, :pointer], :void

.set_module_data_layout(m, dl) ⇒ nil

(Not documented)

Parameters:

• m (FFI::Pointer(ModuleRef))
• dl (OpaqueTargetData)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 128

attach_function :set_module_data_layout, :LLVMSetModuleDataLayout, [:pointer, OpaqueTargetData], :void

.set_module_inline_asm(m, asm) ⇒ nil

Set inline assembly for a module.

Parameters:

• m (FFI::Pointer(ModuleRef))
• asm (String)

Returns:

• (nil)

See Also:

• Module::setModuleInlineAsm()

# File 'lib/llvm/core_ffi.rb', line 1108

attach_function :set_module_inline_asm, :LLVMSetModuleInlineAsm, [:pointer, :string], :void

.set_operand(user, index, val) ⇒ nil

Set an operand at a specific index in a llvm::User value.

Parameters:

• user (FFI::Pointer(ValueRef))
• index (Integer)
• val (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Userllvm::User::setOperand()

# File 'lib/llvm/core_ffi.rb', line 2590

attach_function :set_operand, :LLVMSetOperand, [:pointer, :uint, :pointer], :void

.set_ordering(memory_access_inst, ordering) ⇒ nil

(Not documented)

Parameters:

• memory_access_inst (FFI::Pointer(ValueRef))
• ordering (Symbol from _enum_atomic_ordering_)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5146

attach_function :set_ordering, :LLVMSetOrdering, [:pointer, :atomic_ordering], :void

.set_param_alignment(arg, align) ⇒ nil

Set the alignment for a function parameter.

Parameters:

• arg (FFI::Pointer(ValueRef))
• align (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::Argumentllvm::Argument::addAttr()
• llvmllvm::AttrBuilderllvm::AttrBuilder::addAlignmentAttr()

# File 'lib/llvm/core_ffi.rb', line 3750

attach_function :set_param_alignment, :LLVMSetParamAlignment, [:pointer, :uint], :void

.set_personality_fn(fn, personality_fn) ⇒ nil

Set the personality function attached to the function.

Parameters:

• fn (FFI::Pointer(ValueRef))
• personality_fn (FFI::Pointer(ValueRef))

Returns:

• (nil)

See Also:

• llvmllvm::Functionllvm::Function::setPersonalityFn()

# File 'lib/llvm/core_ffi.rb', line 3573

attach_function :set_personality_fn, :LLVMSetPersonalityFn, [:pointer, :pointer], :void

.set_section(global, section) ⇒ nil

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))
• section (String)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3288

attach_function :set_section, :LLVMSetSection, [:pointer, :string], :void

.set_successor(term, i, block) ⇒ nil

Update the specified successor to point at the provided block.

Parameters:

• term (FFI::Pointer(ValueRef))
• i (Integer)
• block (FFI::Pointer(BasicBlockRef))

Returns:

• (nil)

See Also:

• llvmllvm::TerminatorInstllvm::TerminatorInst::setSuccessor

# File 'lib/llvm/core_ffi.rb', line 4298

attach_function :set_successor, :LLVMSetSuccessor, [:pointer, :uint, :pointer], :void

.set_tail_call(call_inst, is_tail_call) ⇒ nil

Set whether a call instruction is a tail call.

This only works on llvm::CallInst instructions.

Parameters:

• call_inst (FFI::Pointer(ValueRef))
• is_tail_call (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::CallInstllvm::CallInst::setTailCall()

# File 'lib/llvm/core_ffi.rb', line 4265

attach_function :set_tail_call, :LLVMSetTailCall, [:pointer, :int], :void

.set_target(m, triple) ⇒ nil

Set the target triple for a module.

Parameters:

• m (FFI::Pointer(ModuleRef))
• triple (String)

Returns:

• (nil)

See Also:

• Module::setTargetTriple()

# File 'lib/llvm/core_ffi.rb', line 1063

attach_function :set_target, :LLVMSetTarget, [:pointer, :string], :void

.set_target_machine_asm_verbosity(t, verbose_asm) ⇒ nil

Set the target machine’s ASM verbosity.

Parameters:

• t (OpaqueTargetMachine)
• verbose_asm (Integer)

Returns:

• (nil)

# File 'lib/llvm/target_ffi.rb', line 583

attach_function :set_target_machine_asm_verbosity, :LLVMSetTargetMachineAsmVerbosity, [OpaqueTargetMachine, :int], :void

.set_thread_local(global_var, is_thread_local) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))
• is_thread_local (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3474

attach_function :set_thread_local, :LLVMSetThreadLocal, [:pointer, :int], :void

.set_thread_local_mode(global_var, mode) ⇒ nil

(Not documented)

Parameters:

• global_var (FFI::Pointer(ValueRef))
• mode (Symbol from _enum_thread_local_mode_)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3508

attach_function :set_thread_local_mode, :LLVMSetThreadLocalMode, [:pointer, :thread_local_mode], :void

.set_unnamed_addr(global, has_unnamed_addr) ⇒ nil

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))
• has_unnamed_addr (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3339

attach_function :set_unnamed_addr, :LLVMSetUnnamedAddr, [:pointer, :int], :void

.set_value_name(val, name) ⇒ nil

Set the string name of a value.

Parameters:

• val (FFI::Pointer(ValueRef))
• name (String)

Returns:

• (nil)

See Also:

• llvmllvm::Valuellvm::Value::setName()

# File 'lib/llvm/core_ffi.rb', line 1820

attach_function :set_value_name, :LLVMSetValueName, [:pointer, :string], :void

.set_visibility(global, viz) ⇒ nil

(Not documented)

Parameters:

• global (FFI::Pointer(ValueRef))
• viz (Symbol from _enum_visibility_)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 3305

attach_function :set_visibility, :LLVMSetVisibility, [:pointer, :visibility], :void

.set_volatile(memory_access_inst, is_volatile) ⇒ nil

(Not documented)

Parameters:

• memory_access_inst (FFI::Pointer(ValueRef))
• is_volatile (Integer)

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5129

attach_function :set_volatile, :LLVMSetVolatile, [:pointer, :int], :void

.shutdown ⇒ nil

Deallocate and destroy all ManagedStatic variables.

@see llvm::llvm_shutdown
@see ManagedStatic

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 840

attach_function :shutdown, :LLVMShutdown, [], :void

.size_of(ty) ⇒ FFI::Pointer(ValueRef)

(Not documented)

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (FFI::Pointer(ValueRef))

# File 'lib/llvm/core_ffi.rb', line 2929

attach_function :size_of, :LLVMSizeOf, [:pointer], :pointer

.size_of_type_in_bits(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 231

attach_function :size_of_type_in_bits, :LLVMSizeOfTypeInBits, [OpaqueTargetData, :pointer], :ulong_long

.start_multithreaded ⇒ Integer

Deprecated: Multi-threading can only be enabled/disabled with the compile

time define LLVM_ENABLE_THREADS.  This function always returns
LLVMIsMultithreaded().

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 5731

attach_function :start_multithreaded, :LLVMStartMultithreaded, [], :int

.stop_multithreaded ⇒ nil

Deprecated: Multi-threading can only be enabled/disabled with the compile

time define LLVM_ENABLE_THREADS.

Returns:

• (nil)

# File 'lib/llvm/core_ffi.rb', line 5739

attach_function :stop_multithreaded, :LLVMStopMultithreaded, [], :void

.store_size_of_type(td, ty) ⇒ Integer

(Not documented)

Parameters:

• td (OpaqueTargetData)
• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 240

attach_function :store_size_of_type, :LLVMStoreSizeOfType, [OpaqueTargetData, :pointer], :ulong_long

.struct_create_named(c, name) ⇒ FFI::Pointer(TypeRef)

Create an empty structure in a context having a specified name.

Parameters:

• c (FFI::Pointer(ContextRef))
• name (String)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::StructTypellvm::StructType::create()

# File 'lib/llvm/core_ffi.rb', line 1592

attach_function :struct_create_named, :LLVMStructCreateNamed, [:pointer, :string], :pointer

.struct_get_type_at_index(struct_ty, i) ⇒ FFI::Pointer(TypeRef)

Get the type of the element at a given index in the structure.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))
• i (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::StructTypellvm::StructType::getTypeAtIndex()

# File 'lib/llvm/core_ffi.rb', line 1652

attach_function :struct_get_type_at_index, :LLVMStructGetTypeAtIndex, [:pointer, :uint], :pointer

.struct_set_body(struct_ty, element_types, element_count, packed) ⇒ nil

Set the contents of a structure type.

Parameters:

• struct_ty (FFI::Pointer(TypeRef))
• element_types (FFI::Pointer(*TypeRef))
• element_count (Integer)
• packed (Integer)

Returns:

• (nil)

See Also:

• llvmllvm::StructTypellvm::StructType::setBody()

# File 'lib/llvm/core_ffi.rb', line 1615

attach_function :struct_set_body, :LLVMStructSetBody, [:pointer, :pointer, :uint, :int], :void

.struct_type(element_types, element_count, packed) ⇒ FFI::Pointer(TypeRef)

Create a new structure type in the global context.

Parameters:

• element_types (FFI::Pointer(*TypeRef))
• element_count (Integer)
• packed (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::StructTypellvm::StructType::create()

# File 'lib/llvm/core_ffi.rb', line 1581

attach_function :struct_type, :LLVMStructType, [:pointer, :uint, :int], :pointer

.struct_type_in_context(c, element_types, element_count, packed) ⇒ FFI::Pointer(TypeRef)

Create a new structure type in a context.

A structure is specified by a list of inner elements/types and whether these can be packed together.

Parameters:

• c (FFI::Pointer(ContextRef))
• element_types (FFI::Pointer(*TypeRef))
• element_count (Integer)
• packed (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::StructTypellvm::StructType::create()

# File 'lib/llvm/core_ffi.rb', line 1569

attach_function :struct_type_in_context, :LLVMStructTypeInContext, [:pointer, :pointer, :uint, :int], :pointer

.target_has_asm_backend(t) ⇒ Integer

Returns if the target as an ASM backend (required for emitting output)

Parameters:

• t (Target)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 505

attach_function :target_has_asm_backend, :LLVMTargetHasAsmBackend, [Target], :int

.target_has_jit(t) ⇒ Integer

Returns if the target has a JIT

Parameters:

• t (Target)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 489

attach_function :target_has_jit, :LLVMTargetHasJIT, [Target], :int

.target_has_target_machine(t) ⇒ Integer

Returns if the target has a TargetMachine associated

Parameters:

• t (Target)

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 497

attach_function :target_has_target_machine, :LLVMTargetHasTargetMachine, [Target], :int

.target_machine_emit_to_file(t, m, filename, codegen, error_message) ⇒ Integer

Emits an asm or object file for the given module to the filename. This

wraps several c++ only classes (among them a file stream). Returns any
error in ErrorMessage. Use LLVMDisposeMessage to dispose the message.

Parameters:

• t (OpaqueTargetMachine)
• m (FFI::Pointer(ModuleRef))
• filename (String)
• codegen (Symbol from _enum_code_gen_file_type_)
• error_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 597

attach_function :target_machine_emit_to_file, :LLVMTargetMachineEmitToFile, [OpaqueTargetMachine, :pointer, :string, :code_gen_file_type, :pointer], :int

.target_machine_emit_to_memory_buffer(t, m, codegen, error_message, out_mem_buf) ⇒ Integer

Compile the LLVM IR stored in p M and store the result in p OutMemBuf.

Parameters:

• t (OpaqueTargetMachine)
• m (FFI::Pointer(ModuleRef))
• codegen (Symbol from _enum_code_gen_file_type_)
• error_message (FFI::Pointer(**CharS))
• out_mem_buf (FFI::Pointer(*MemoryBufferRef))

Returns:

• (Integer)

# File 'lib/llvm/target_ffi.rb', line 609

attach_function :target_machine_emit_to_memory_buffer, :LLVMTargetMachineEmitToMemoryBuffer, [OpaqueTargetMachine, :pointer, :code_gen_file_type, :pointer, :pointer], :int

.type_is_sized(ty) ⇒ Integer

Whether the type has a known size.

Things that don’t have a size are abstract types, labels, and void.a

Parameters:

• ty (FFI::Pointer(TypeRef))

Returns:

• (Integer)

See Also:

• llvmllvm::Typellvm::Type::isSized()

# File 'lib/llvm/core_ffi.rb', line 1258

attach_function :type_is_sized, :LLVMTypeIsSized, [:pointer], :int

.type_of(val) ⇒ FFI::Pointer(TypeRef)

Obtain the type of a value.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::Valuellvm::Value::getType()

# File 'lib/llvm/core_ffi.rb', line 1799

attach_function :type_of, :LLVMTypeOf, [:pointer], :pointer

.value_as_basic_block(val) ⇒ FFI::Pointer(BasicBlockRef)

Convert an LLVMValueRef to an LLVMBasicBlockRef instance.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (FFI::Pointer(BasicBlockRef))

# File 'lib/llvm/core_ffi.rb', line 3861

attach_function :value_as_basic_block, :LLVMValueAsBasicBlock, [:pointer], :pointer

.value_is_basic_block(val) ⇒ Integer

Determine whether an LLVMValueRef is itself a basic block.

Parameters:

• val (FFI::Pointer(ValueRef))

Returns:

• (Integer)

# File 'lib/llvm/core_ffi.rb', line 3853

attach_function :value_is_basic_block, :LLVMValueIsBasicBlock, [:pointer], :int

.vector_type(element_type, element_count) ⇒ FFI::Pointer(TypeRef)

Create a vector type that contains a defined type and has a specific number of elements.

The created type will exist in the context thats its element type exists in.

Parameters:

• element_type (FFI::Pointer(TypeRef))
• element_count (Integer)

Returns:

• (FFI::Pointer(TypeRef))

See Also:

• llvmllvm::VectorTypellvm::VectorType::get()

# File 'lib/llvm/core_ffi.rb', line 1731

attach_function :vector_type, :LLVMVectorType, [:pointer, :uint], :pointer

.verify_function(fn, action) ⇒ Integer

Verifies that a single function is valid, taking the specified action. Useful

for debugging.

Parameters:

• fn (FFI::Pointer(ValueRef))
• action (Symbol from _enum_verifier_failure_action_)

Returns:

• (Integer)

# File 'lib/llvm/analysis_ffi.rb', line 59

attach_function :verify_function, :LLVMVerifyFunction, [:pointer, :verifier_failure_action], :int

.verify_module(m, action, out_message) ⇒ Integer

Verifies that a module is valid, taking the specified action if not.

Optionally returns a human-readable description of any invalid constructs.
OutMessage must be disposed with LLVMDisposeMessage.

Parameters:

• m (FFI::Pointer(ModuleRef))
• action (Symbol from _enum_verifier_failure_action_)
• out_message (FFI::Pointer(**CharS))

Returns:

• (Integer)

# File 'lib/llvm/analysis_ffi.rb', line 49

attach_function :verify_module, :LLVMVerifyModule, [:pointer, :verifier_failure_action, :pointer], :int

.view_function_cfg(fn) ⇒ nil

Open up a ghostview window that displays the CFG of the current function.

Useful for debugging.

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/analysis_ffi.rb', line 68

attach_function :view_function_cfg, :LLVMViewFunctionCFG, [:pointer], :void

.view_function_cfg_only(fn) ⇒ nil

(Not documented)

Parameters:

• fn (FFI::Pointer(ValueRef))

Returns:

• (nil)

# File 'lib/llvm/analysis_ffi.rb', line 76

attach_function :view_function_cfg_only, :LLVMViewFunctionCFGOnly, [:pointer], :void

.void_type ⇒ FFI::Pointer(TypeRef)

These are similar to the above functions except they operate on the global context.

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1775

attach_function :void_type, :LLVMVoidType, [], :pointer

.void_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Create a void type in a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1751

attach_function :void_type_in_context, :LLVMVoidTypeInContext, [:pointer], :pointer

.write_bitcode_to_fd(m, fd, should_close, unbuffered) ⇒ Integer

Writes a module to an open file descriptor. Returns 0 on success.

Parameters:

• m (FFI::Pointer(ModuleRef))
• fd (Integer)
• should_close (Integer)
• unbuffered (Integer)

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 113

attach_function :write_bitcode_to_fd, :LLVMWriteBitcodeToFD, [:pointer, :int, :int, :int], :int

.write_bitcode_to_file(m, path) ⇒ Integer

Writes a module to the specified path. Returns 0 on success.

Parameters:

• m (FFI::Pointer(ModuleRef))
• path (String)

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 102

attach_function :write_bitcode_to_file, :LLVMWriteBitcodeToFile, [:pointer, :string], :int

.write_bitcode_to_file_handle(m, handle) ⇒ Integer

Deprecated for LLVMWriteBitcodeToFD. Writes a module to an open file

descriptor. Returns 0 on success. Closes the Handle.

Parameters:

• m (FFI::Pointer(ModuleRef))
• handle (Integer)

Returns:

• (Integer)

# File 'lib/llvm/core/bitcode_ffi.rb', line 123

attach_function :write_bitcode_to_file_handle, :LLVMWriteBitcodeToFileHandle, [:pointer, :int], :int

.write_bitcode_to_memory_buffer(m) ⇒ FFI::Pointer(MemoryBufferRef)

Writes a module to a new memory buffer and returns it.

Parameters:

• m (FFI::Pointer(ModuleRef))

Returns:

• (FFI::Pointer(MemoryBufferRef))

# File 'lib/llvm/core/bitcode_ffi.rb', line 131

attach_function :write_bitcode_to_memory_buffer, :LLVMWriteBitcodeToMemoryBuffer, [:pointer], :pointer

.x86amx_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core.rb', line 106

attach_function :x86amx_type, :LLVMX86AMXType, [], :pointer

.x86fp80_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1484

attach_function :x86fp80_type, :LLVMX86FP80Type, [], :pointer

.x86fp80_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Obtain a 80-bit floating point type (X87) from a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1437

attach_function :x86fp80_type_in_context, :LLVMX86FP80TypeInContext, [:pointer], :pointer

.x86mmx_type ⇒ FFI::Pointer(TypeRef)

(Not documented)

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1789

attach_function :x86mmx_type, :LLVMX86MMXType, [], :pointer

.x86mmx_type_in_context(c) ⇒ FFI::Pointer(TypeRef)

Create a X86 MMX type in a context.

Parameters:

• c (FFI::Pointer(ContextRef))

Returns:

• (FFI::Pointer(TypeRef))

# File 'lib/llvm/core_ffi.rb', line 1767

attach_function :x86mmx_type_in_context, :LLVMX86MMXTypeInContext, [:pointer], :pointer

Instance Method Details

#for_each_value_subclass(macro) ⇒ Object

# File 'lib/llvm/core_ffi.rb', line 15

def for_each_value_subclass(macro)
  macroARGUMENTmacroBASIC_BLOCKmacroINLINE_ASMmacroUSERmacroCONSTANTmacroBLOCK_ADDRESSmacroCONSTANT_AGGREGATE_ZEROmacroCONSTANT_ARRAYmacroCONSTANT_DATA_SEQUENTIALmacroCONSTANT_DATA_ARRAYmacroCONSTANT_DATA_VECTORmacroCONSTANT_EXPRmacroCONSTANT_FPmacroCONSTANT_INTmacroCONSTANT_POINTER_NULLmacroCONSTANT_STRUCTmacroCONSTANT_TOKEN_NONEmacroCONSTANT_VECTORmacroGLOBAL_VALUEmacroGLOBAL_ALIASmacroGLOBAL_OBJECTmacroFUNCTIONmacroGLOBAL_VARIABLEmacroUNDEF_VALUEmacroINSTRUCTIONmacroBINARY_OPERATORmacroCALL_INSTmacroINTRINSIC_INSTmacroDBG_INFO_INTRINSICmacroDBG_DECLARE_INSTmacroMEM_INTRINSICmacroMEM_CPY_INSTmacroMEM_MOVE_INSTmacroMEM_SET_INSTmacroCMP_INSTmacroF_CMP_INSTmacroI_CMP_INSTmacroEXTRACT_ELEMENT_INSTmacroGET_ELEMENT_PTR_INSTmacroINSERT_ELEMENT_INSTmacroINSERT_VALUE_INSTmacroLANDING_PAD_INSTmacroPHI_NODEmacroSELECT_INSTmacroSHUFFLE_VECTOR_INSTmacroSTORE_INSTmacroTERMINATOR_INSTmacroBRANCH_INSTmacroINDIRECT_BR_INSTmacroINVOKE_INSTmacroRETURN_INSTmacroSWITCH_INSTmacroUNREACHABLE_INSTmacroRESUME_INSTmacroCLEANUP_RETURN_INSTmacroCATCH_RETURN_INSTmacroFUNCLET_PAD_INSTmacroCATCH_PAD_INSTmacroCLEANUP_PAD_INSTmacroUNARY_INSTRUCTIONmacroALLOCA_INSTmacroCAST_INSTmacroADDR_SPACE_CAST_INSTmacroBIT_CAST_INSTmacroFP_EXT_INSTmacroFP_TO_SI_INSTmacroFP_TO_UI_INSTmacroFP_TRUNC_INSTmacroINT_TO_PTR_INSTmacroPTR_TO_INT_INSTmacroS_EXT_INSTmacroSI_TO_FP_INSTmacroTRUNC_INSTmacroUI_TO_FP_INSTmacroZ_EXT_INSTmacroEXTRACT_VALUE_INSTmacroLOAD_INSTmacroVA_ARG_INST
end