Struct inkwell::context::ContextRef
source · pub struct ContextRef<'ctx> { /* private fields */ }
Expand description
A ContextRef
is a smart pointer allowing borrowed access to a type’s Context
.
Implementations§
source§impl<'ctx> ContextRef<'ctx>
impl<'ctx> ContextRef<'ctx>
sourcepub fn create_builder(&self) -> Builder<'ctx>
pub fn create_builder(&self) -> Builder<'ctx>
Creates a new Builder
for a Context
.
Example
use inkwell::context::Context;
let context = Context::create();
let builder = context.create_builder();
sourcepub fn create_module(&self, name: &str) -> Module<'ctx>
pub fn create_module(&self, name: &str) -> Module<'ctx>
Creates a new Module
for a Context
.
Example
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_module");
sourcepub fn create_module_from_ir(
&self,
memory_buffer: MemoryBuffer
) -> Result<Module<'ctx>, LLVMString>
pub fn create_module_from_ir( &self, memory_buffer: MemoryBuffer ) -> Result<Module<'ctx>, LLVMString>
Creates a new Module
for the current Context
from a MemoryBuffer
.
Example
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_module");
let builder = context.create_builder();
let void_type = context.void_type();
let fn_type = void_type.fn_type(&[], false);
let fn_val = module.add_function("my_fn", fn_type, None);
let basic_block = context.append_basic_block(fn_val, "entry");
builder.position_at_end(basic_block);
builder.build_return(None).unwrap();
let memory_buffer = module.write_bitcode_to_memory();
let module2 = context.create_module_from_ir(memory_buffer).unwrap();
sourcepub fn create_inline_asm(
&self,
ty: FunctionType<'ctx>,
assembly: String,
constraints: String,
sideeffects: bool,
alignstack: bool,
dialect: Option<InlineAsmDialect>,
can_throw: bool
) -> PointerValue<'ctx>
pub fn create_inline_asm( &self, ty: FunctionType<'ctx>, assembly: String, constraints: String, sideeffects: bool, alignstack: bool, dialect: Option<InlineAsmDialect>, can_throw: bool ) -> PointerValue<'ctx>
Creates a inline asm function pointer.
Example
use std::convert::TryFrom;
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_module");
let builder = context.create_builder();
let void_type = context.void_type();
let fn_type = void_type.fn_type(&[], false);
let fn_val = module.add_function("my_fn", fn_type, None);
let basic_block = context.append_basic_block(fn_val, "entry");
builder.position_at_end(basic_block);
let asm_fn = context.i64_type().fn_type(&[context.i64_type().into(), context.i64_type().into()], false);
let asm = context.create_inline_asm(
asm_fn,
"syscall".to_string(),
"=r,{rax},{rdi}".to_string(),
true,
false,
#[cfg(not(any(feature = "llvm4-0", feature = "llvm5-0", feature = "llvm6-0")))] None,
#[cfg(not(any(
feature = "llvm4-0",
feature = "llvm5-0",
feature = "llvm6-0",
feature = "llvm7-0",
feature = "llvm8-0",
feature = "llvm9-0",
feature = "llvm10-0",
feature = "llvm11-0",
feature = "llvm12-0"
)))]
false,
);
let params = &[context.i64_type().const_int(60, false).into(), context.i64_type().const_int(1, false).into()];
#[cfg(any(
feature = "llvm4-0",
feature = "llvm5-0",
feature = "llvm6-0",
feature = "llvm7-0",
feature = "llvm8-0",
feature = "llvm9-0",
feature = "llvm10-0",
feature = "llvm11-0",
feature = "llvm12-0",
feature = "llvm13-0",
feature = "llvm14-0"
))]
{
use inkwell::values::CallableValue;
let callable_value = CallableValue::try_from(asm).unwrap();
builder.build_call(callable_value, params, "exit").unwrap();
}
#[cfg(any(feature = "llvm15-0", feature = "llvm16-0", feature = "llvm17-0"))]
builder.build_indirect_call(asm_fn, asm, params, "exit").unwrap();
builder.build_return(None).unwrap();
sourcepub fn void_type(&self) -> VoidType<'ctx>
pub fn void_type(&self) -> VoidType<'ctx>
Gets the VoidType
. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let void_type = context.void_type();
assert_eq!(void_type.get_context(), context);
sourcepub fn bool_type(&self) -> IntType<'ctx>
pub fn bool_type(&self) -> IntType<'ctx>
Gets the IntType
representing 1 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let bool_type = context.bool_type();
assert_eq!(bool_type.get_bit_width(), 1);
assert_eq!(bool_type.get_context(), context);
sourcepub fn i8_type(&self) -> IntType<'ctx>
pub fn i8_type(&self) -> IntType<'ctx>
Gets the IntType
representing 8 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i8_type = context.i8_type();
assert_eq!(i8_type.get_bit_width(), 8);
assert_eq!(i8_type.get_context(), context);
sourcepub fn i16_type(&self) -> IntType<'ctx>
pub fn i16_type(&self) -> IntType<'ctx>
Gets the IntType
representing 16 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i16_type = context.i16_type();
assert_eq!(i16_type.get_bit_width(), 16);
assert_eq!(i16_type.get_context(), context);
sourcepub fn i32_type(&self) -> IntType<'ctx>
pub fn i32_type(&self) -> IntType<'ctx>
Gets the IntType
representing 32 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i32_type = context.i32_type();
assert_eq!(i32_type.get_bit_width(), 32);
assert_eq!(i32_type.get_context(), context);
sourcepub fn i64_type(&self) -> IntType<'ctx>
pub fn i64_type(&self) -> IntType<'ctx>
Gets the IntType
representing 64 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i64_type = context.i64_type();
assert_eq!(i64_type.get_bit_width(), 64);
assert_eq!(i64_type.get_context(), context);
sourcepub fn i128_type(&self) -> IntType<'ctx>
pub fn i128_type(&self) -> IntType<'ctx>
Gets the IntType
representing 128 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i128_type = context.i128_type();
assert_eq!(i128_type.get_bit_width(), 128);
assert_eq!(i128_type.get_context(), context);
sourcepub fn custom_width_int_type(&self, bits: u32) -> IntType<'ctx>
pub fn custom_width_int_type(&self, bits: u32) -> IntType<'ctx>
Gets the IntType
representing a custom bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let i42_type = context.custom_width_int_type(42);
assert_eq!(i42_type.get_bit_width(), 42);
assert_eq!(i42_type.get_context(), context);
sourcepub fn metadata_type(&self) -> MetadataType<'ctx>
pub fn metadata_type(&self) -> MetadataType<'ctx>
Gets the MetadataType
representing 128 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
use inkwell::values::IntValue;
let context = Context::create();
let md_type = context.metadata_type();
assert_eq!(md_type.get_context(), context);
sourcepub fn ptr_sized_int_type(
&self,
target_data: &TargetData,
address_space: Option<AddressSpace>
) -> IntType<'ctx>
pub fn ptr_sized_int_type( &self, target_data: &TargetData, address_space: Option<AddressSpace> ) -> IntType<'ctx>
Gets the IntType
representing a bit width of a pointer. It will be assigned the referenced context.
Example
use inkwell::OptimizationLevel;
use inkwell::context::Context;
use inkwell::targets::{InitializationConfig, Target};
Target::initialize_native(&InitializationConfig::default()).expect("Failed to initialize native target");
let context = Context::create();
let module = context.create_module("sum");
let execution_engine = module.create_jit_execution_engine(OptimizationLevel::None).unwrap();
let target_data = execution_engine.get_target_data();
let int_type = context.ptr_sized_int_type(&target_data, None);
sourcepub fn f16_type(&self) -> FloatType<'ctx>
pub fn f16_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 16 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let f16_type = context.f16_type();
assert_eq!(f16_type.get_context(), context);
sourcepub fn f32_type(&self) -> FloatType<'ctx>
pub fn f32_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 32 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let f32_type = context.f32_type();
assert_eq!(f32_type.get_context(), context);
sourcepub fn f64_type(&self) -> FloatType<'ctx>
pub fn f64_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 64 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let f64_type = context.f64_type();
assert_eq!(f64_type.get_context(), context);
sourcepub fn x86_f80_type(&self) -> FloatType<'ctx>
pub fn x86_f80_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 80 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let x86_f80_type = context.x86_f80_type();
assert_eq!(x86_f80_type.get_context(), context);
sourcepub fn f128_type(&self) -> FloatType<'ctx>
pub fn f128_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 128 bit width. It will be assigned the current context.
Example
use inkwell::context::Context;
let context = Context::create();
let f128_type = context.f128_type();
assert_eq!(f128_type.get_context(), context);
sourcepub fn ppc_f128_type(&self) -> FloatType<'ctx>
pub fn ppc_f128_type(&self) -> FloatType<'ctx>
Gets the FloatType
representing a 128 bit width. It will be assigned the current context.
PPC is two 64 bits side by side rather than one single 128 bit float.
Example
use inkwell::context::Context;
let context = Context::create();
let f128_type = context.ppc_f128_type();
assert_eq!(f128_type.get_context(), context);
sourcepub fn struct_type(
&self,
field_types: &[BasicTypeEnum<'ctx>],
packed: bool
) -> StructType<'ctx>
pub fn struct_type( &self, field_types: &[BasicTypeEnum<'ctx>], packed: bool ) -> StructType<'ctx>
Creates a StructType
definition from heterogeneous types in the current Context
.
Example
use inkwell::context::Context;
let context = Context::create();
let f32_type = context.f32_type();
let i16_type = context.i16_type();
let struct_type = context.struct_type(&[i16_type.into(), f32_type.into()], false);
assert_eq!(struct_type.get_field_types(), &[i16_type.into(), f32_type.into()]);
sourcepub fn opaque_struct_type(&self, name: &str) -> StructType<'ctx>
pub fn opaque_struct_type(&self, name: &str) -> StructType<'ctx>
Creates an opaque StructType
with no type definition yet defined.
Example
use inkwell::context::Context;
let context = Context::create();
let f32_type = context.f32_type();
let i16_type = context.i16_type();
let struct_type = context.opaque_struct_type("my_struct");
assert_eq!(struct_type.get_field_types(), &[]);
sourcepub fn get_struct_type(&self, name: &str) -> Option<StructType<'ctx>>
pub fn get_struct_type(&self, name: &str) -> Option<StructType<'ctx>>
Gets a named StructType
from this Context
.
Example
use inkwell::context::Context;
let context = Context::create();
assert!(context.get_struct_type("foo").is_none());
let opaque = context.opaque_struct_type("foo");
assert_eq!(context.get_struct_type("foo").unwrap(), opaque);
sourcepub fn const_struct(
&self,
values: &[BasicValueEnum<'ctx>],
packed: bool
) -> StructValue<'ctx>
pub fn const_struct( &self, values: &[BasicValueEnum<'ctx>], packed: bool ) -> StructValue<'ctx>
Creates a constant StructValue
from constant values.
Example
use inkwell::context::Context;
let context = Context::create();
let f32_type = context.f32_type();
let i16_type = context.i16_type();
let f32_one = f32_type.const_float(1.);
let i16_two = i16_type.const_int(2, false);
let const_struct = context.const_struct(&[i16_two.into(), f32_one.into()], false);
assert_eq!(const_struct.get_type().get_field_types(), &[i16_type.into(), f32_type.into()]);
sourcepub fn append_basic_block(
&self,
function: FunctionValue<'ctx>,
name: &str
) -> BasicBlock<'ctx>
pub fn append_basic_block( &self, function: FunctionValue<'ctx>, name: &str ) -> BasicBlock<'ctx>
Append a named BasicBlock
at the end of the referenced FunctionValue
.
Example
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_mod");
let void_type = context.void_type();
let fn_type = void_type.fn_type(&[], false);
let fn_value = module.add_function("my_fn", fn_type, None);
let entry_basic_block = context.append_basic_block(fn_value, "entry");
assert_eq!(fn_value.count_basic_blocks(), 1);
let last_basic_block = context.append_basic_block(fn_value, "last");
assert_eq!(fn_value.count_basic_blocks(), 2);
assert_eq!(fn_value.get_first_basic_block().unwrap(), entry_basic_block);
assert_eq!(fn_value.get_last_basic_block().unwrap(), last_basic_block);
sourcepub fn insert_basic_block_after(
&self,
basic_block: BasicBlock<'ctx>,
name: &str
) -> BasicBlock<'ctx>
pub fn insert_basic_block_after( &self, basic_block: BasicBlock<'ctx>, name: &str ) -> BasicBlock<'ctx>
Append a named BasicBlock
after the referenced BasicBlock
.
Example
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_mod");
let void_type = context.void_type();
let fn_type = void_type.fn_type(&[], false);
let fn_value = module.add_function("my_fn", fn_type, None);
let entry_basic_block = context.append_basic_block(fn_value, "entry");
assert_eq!(fn_value.count_basic_blocks(), 1);
let last_basic_block = context.insert_basic_block_after(entry_basic_block, "last");
assert_eq!(fn_value.count_basic_blocks(), 2);
assert_eq!(fn_value.get_first_basic_block().unwrap(), entry_basic_block);
assert_eq!(fn_value.get_last_basic_block().unwrap(), last_basic_block);
sourcepub fn prepend_basic_block(
&self,
basic_block: BasicBlock<'ctx>,
name: &str
) -> BasicBlock<'ctx>
pub fn prepend_basic_block( &self, basic_block: BasicBlock<'ctx>, name: &str ) -> BasicBlock<'ctx>
Prepend a named BasicBlock
before the referenced BasicBlock
.
Example
use inkwell::context::Context;
let context = Context::create();
let module = context.create_module("my_mod");
let void_type = context.void_type();
let fn_type = void_type.fn_type(&[], false);
let fn_value = module.add_function("my_fn", fn_type, None);
let entry_basic_block = context.append_basic_block(fn_value, "entry");
assert_eq!(fn_value.count_basic_blocks(), 1);
let first_basic_block = context.prepend_basic_block(entry_basic_block, "first");
assert_eq!(fn_value.count_basic_blocks(), 2);
assert_eq!(fn_value.get_first_basic_block().unwrap(), first_basic_block);
assert_eq!(fn_value.get_last_basic_block().unwrap(), entry_basic_block);
sourcepub fn metadata_node(
&self,
values: &[BasicMetadataValueEnum<'ctx>]
) -> MetadataValue<'ctx>
pub fn metadata_node( &self, values: &[BasicMetadataValueEnum<'ctx>] ) -> MetadataValue<'ctx>
Creates a MetadataValue
tuple of heterogeneous types (a “Node”) for the current context. It can be assigned to a value.
Example
use inkwell::context::Context;
let context = Context::create();
let i8_type = context.i8_type();
let i8_two = i8_type.const_int(2, false);
let f32_type = context.f32_type();
let f32_zero = f32_type.const_float(0.);
let md_node = context.metadata_node(&[i8_two.into(), f32_zero.into()]);
let f32_one = f32_type.const_float(1.);
let void_type = context.void_type();
let builder = context.create_builder();
let module = context.create_module("my_mod");
let fn_type = void_type.fn_type(&[f32_type.into()], false);
let fn_value = module.add_function("my_func", fn_type, None);
let entry_block = context.append_basic_block(fn_value, "entry");
builder.position_at_end(entry_block);
let ret_instr = builder.build_return(None).unwrap();
assert!(md_node.is_node());
ret_instr.set_metadata(md_node, 0);
sourcepub fn metadata_string(&self, string: &str) -> MetadataValue<'ctx>
pub fn metadata_string(&self, string: &str) -> MetadataValue<'ctx>
Creates a MetadataValue
string for the current context. It can be assigned to a value.
Example
use inkwell::context::Context;
let context = Context::create();
let md_string = context.metadata_string("Floats are awesome!");
let f32_type = context.f32_type();
let f32_one = f32_type.const_float(1.);
let void_type = context.void_type();
let builder = context.create_builder();
let module = context.create_module("my_mod");
let fn_type = void_type.fn_type(&[f32_type.into()], false);
let fn_value = module.add_function("my_func", fn_type, None);
let entry_block = context.append_basic_block(fn_value, "entry");
builder.position_at_end(entry_block);
let ret_instr = builder.build_return(None).unwrap();
assert!(md_string.is_string());
ret_instr.set_metadata(md_string, 0);
sourcepub fn get_kind_id(&self, key: &str) -> u32
pub fn get_kind_id(&self, key: &str) -> u32
Obtains the index of a metadata kind id. If the string doesn’t exist, LLVM will add it at index FIRST_CUSTOM_METADATA_KIND_ID
onward.
Example
use inkwell::context::Context;
use inkwell::values::FIRST_CUSTOM_METADATA_KIND_ID;
let context = Context::create();
assert_eq!(context.get_kind_id("dbg"), 0);
assert_eq!(context.get_kind_id("tbaa"), 1);
assert_eq!(context.get_kind_id("prof"), 2);
// Custom kind id doesn't exist in LLVM until now:
assert_eq!(context.get_kind_id("foo"), FIRST_CUSTOM_METADATA_KIND_ID);
sourcepub fn create_enum_attribute(&self, kind_id: u32, val: u64) -> Attribute
pub fn create_enum_attribute(&self, kind_id: u32, val: u64) -> Attribute
Creates an enum Attribute
in this Context
.
Example
use inkwell::context::Context;
let context = Context::create();
let enum_attribute = context.create_enum_attribute(0, 10);
assert!(enum_attribute.is_enum());
sourcepub fn create_string_attribute(&self, key: &str, val: &str) -> Attribute
pub fn create_string_attribute(&self, key: &str, val: &str) -> Attribute
Creates a string Attribute
in this Context
.
Example
use inkwell::context::Context;
let context = Context::create();
let string_attribute = context.create_string_attribute("my_key_123", "my_val");
assert!(string_attribute.is_string());
sourcepub fn create_type_attribute(
&self,
kind_id: u32,
type_ref: AnyTypeEnum<'_>
) -> Attribute
pub fn create_type_attribute( &self, kind_id: u32, type_ref: AnyTypeEnum<'_> ) -> Attribute
Create an enum Attribute
with an AnyTypeEnum
attached to it.
Example
use inkwell::context::Context;
use inkwell::attributes::Attribute;
use inkwell::types::AnyType;
let context = Context::create();
let kind_id = Attribute::get_named_enum_kind_id("sret");
let any_type = context.i32_type().as_any_type_enum();
let type_attribute = context.create_type_attribute(
kind_id,
any_type,
);
assert!(type_attribute.is_type());
assert_eq!(type_attribute.get_type_value(), any_type);
assert_ne!(type_attribute.get_type_value(), context.i64_type().as_any_type_enum());
sourcepub fn const_string(
&self,
string: &[u8],
null_terminated: bool
) -> ArrayValue<'ctx>
pub fn const_string( &self, string: &[u8], null_terminated: bool ) -> ArrayValue<'ctx>
Creates a const string which may be null terminated.
Example
use inkwell::context::Context;
use inkwell::values::AnyValue;
let context = Context::create();
let string = context.const_string(b"my_string", false);
assert_eq!(string.print_to_string().to_string(), "[9 x i8] c\"my_string\"");
Trait Implementations§
source§impl<'ctx> AsContextRef<'ctx> for ContextRef<'ctx>
impl<'ctx> AsContextRef<'ctx> for ContextRef<'ctx>
source§fn as_ctx_ref(&self) -> LLVMContextRef
fn as_ctx_ref(&self) -> LLVMContextRef
Acquires the underlying raw pointer belonging to this ContextRef
type.
source§impl<'ctx> Clone for ContextRef<'ctx>
impl<'ctx> Clone for ContextRef<'ctx>
source§fn clone(&self) -> ContextRef<'ctx>
fn clone(&self) -> ContextRef<'ctx>
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
source
. Read moresource§impl<'ctx> Debug for ContextRef<'ctx>
impl<'ctx> Debug for ContextRef<'ctx>
source§impl PartialEq<Context> for ContextRef<'_>
impl PartialEq<Context> for ContextRef<'_>
source§impl PartialEq<ContextRef<'_>> for Context
impl PartialEq<ContextRef<'_>> for Context
source§fn eq(&self, other: &ContextRef<'_>) -> bool
fn eq(&self, other: &ContextRef<'_>) -> bool
self
and other
values to be equal, and is used
by ==
.source§impl<'ctx> PartialEq for ContextRef<'ctx>
impl<'ctx> PartialEq for ContextRef<'ctx>
source§fn eq(&self, other: &ContextRef<'ctx>) -> bool
fn eq(&self, other: &ContextRef<'ctx>) -> bool
self
and other
values to be equal, and is used
by ==
.