module Llvm:sig
..end
This interface provides an OCaml API for the LLVM intermediate
representation, the classes in the VMCore library.
These abstract types correlate directly to the LLVM VMCore classes.
type
llcontext
llvm::LLVMContext
class.type
llmodule
llvm::Module
class.type
lltype
lltype
. See the
llvm::Type
class.type
llvalue
llvalues
. See the llvm::Value
class.
This type covers a wide range of subclasses.type
lluse
llvm::Use
class.type
llbasicblock
llvm::BasicBlock
class.type
llbuilder
llvm::LLVMBuilder
class.type
llmemorybuffer
llvm::MemoryBuffer
class.type
llmdkind
module TypeKind:sig
..end
lltype
, the result of classify_type ty
.
module Linkage:sig
..end
Llvm.linkage
and
Llvm.set_linkage
.
module Visibility:sig
..end
Llvm.visibility
and
Llvm.set_visibility
.
module DLLStorageClass:sig
..end
Llvm.dll_storage_class
and
Llvm.set_dll_storage_class
.
module CallConv:sig
..end
Llvm.function_call_conv
and Llvm.set_function_call_conv
.
module Attribute:sig
..end
module Icmp:sig
..end
icmp
) instruction.
module Fcmp:sig
..end
fcmp
) instruction.
module Opcode:sig
..end
module LandingPadClauseTy:sig
..end
landingpad
instruction.
module ThreadLocalMode:sig
..end
Llvm.thread_local_mode
and Llvm.set_thread_local_mode
.
module AtomicOrdering:sig
..end
load
, store
, cmpxchg
, atomicrmw
or
fence
instruction.
module AtomicRMWBinOp:sig
..end
atomicrmw
instruction.
module ValueKind:sig
..end
llvalue
, the result of classify_value v
.
type ('a, 'b)
llpos =
| |
At_end of |
| |
Before of |
Before b
and At_end a
specify positions from the start of the 'b
list
of a
. llpos
is used to specify positions in and for forward iteration
through the various value lists maintained by the LLVM IR.type ('a, 'b)
llrev_pos =
| |
At_start of |
| |
After of |
After b
and At_start a
specify positions from the end of the 'b
list
of a
. llrev_pos
is used for reverse iteration through the various value
lists maintained by the LLVM IR.exception IoError of string
val enable_pretty_stacktrace : unit -> unit
enable_pretty_stacktraces ()
enables LLVM's built-in stack trace code.
This intercepts the OS's crash signals and prints which component of LLVM
you were in at the time of the crash.val install_fatal_error_handler : (string -> unit) -> unit
install_fatal_error_handler f
installs f
as LLVM's fatal error handler.
The handler will receive the reason for termination as a string. After
the handler has been executed, LLVM calls exit(1)
.val reset_fatal_error_handler : unit -> unit
reset_fatal_error_handler ()
resets LLVM's fatal error handler.val parse_command_line_options : ?overview:string -> string array -> unit
parse_command_line_options ?overview args
parses args
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.
See the function llvm::cl::ParseCommandLineOptions()
.
val create_context : unit -> llcontext
create_context ()
creates a context for storing the "global" state in
LLVM. See the constructor llvm::LLVMContext
.val dispose_context : llcontext -> unit
destroy_context ()
destroys a context. See the destructor
llvm::LLVMContext::~LLVMContext
.val global_context : unit -> llcontext
llvm::getGlobalContext
.val mdkind_id : llcontext -> string -> llmdkind
mdkind_id context name
returns the MDKind ID that corresponds to the
name name
in the context context
. See the function
llvm::LLVMContext::getMDKindID
.val create_module : llcontext -> string -> llmodule
create_module context id
creates a module with the supplied module ID in
the context context
. Modules are not garbage collected; it is mandatory
to call Llvm.dispose_module
to free memory. See the constructor
llvm::Module::Module
.val dispose_module : llmodule -> unit
dispose_module m
destroys a module m
and all of the IR objects it
contained. All references to subordinate objects are invalidated;
referencing them will invoke undefined behavior. See the destructor
llvm::Module::~Module
.val target_triple : llmodule -> string
target_triple m
is the target specifier for the module m
, something like
i686-apple-darwin8
. See the method llvm::Module::getTargetTriple
.val set_target_triple : string -> llmodule -> unit
target_triple triple m
changes the target specifier for the module m
to
the string triple
. See the method llvm::Module::setTargetTriple
.val data_layout : llmodule -> string
data_layout m
is the data layout specifier for the module m
, something
like e-p:32:32:32-i1:8:8-i8:8:8-i16:16:16-...-a0:0:64-f80:128:128
. See the
method llvm::Module::getDataLayout
.val set_data_layout : string -> llmodule -> unit
set_data_layout s m
changes the data layout specifier for the module m
to the string s
. See the method llvm::Module::setDataLayout
.val dump_module : llmodule -> unit
dump_module m
prints the .ll representation of the module m
to standard
error. See the method llvm::Module::dump
.val print_module : string -> llmodule -> unit
print_module f m
prints the .ll representation of the module m
to file f
. See the method llvm::Module::print
.val string_of_llmodule : llmodule -> string
string_of_llmodule m
returns the .ll representation of the module m
as a string. See the method llvm::Module::print
.val set_module_inline_asm : llmodule -> string -> unit
set_module_inline_asm m asm
sets the inline assembler for the module. See
the method llvm::Module::setModuleInlineAsm
.val module_context : llmodule -> llcontext
module_context m
returns the context of the specified module.
See the method llvm::Module::getContext
val classify_type : lltype -> TypeKind.t
classify_type ty
returns the Llvm.TypeKind.t
corresponding to the type ty
.
See the method llvm::Type::getTypeID
.val type_is_sized : lltype -> bool
type_is_sized ty
returns whether the type has a size or not.
If it doesn't then it is not safe to call the DataLayout::
methods on it.val type_context : lltype -> llcontext
type_context ty
returns the Llvm.llcontext
corresponding to the type ty
.
See the method llvm::Type::getContext
.val dump_type : lltype -> unit
dump_type ty
prints the .ll representation of the type ty
to standard
error. See the method llvm::Type::dump
.val string_of_lltype : lltype -> string
string_of_lltype ty
returns a string describing the type ty
.val i1_type : llcontext -> lltype
i1_type c
returns an integer type of bitwidth 1 in the context c
. See
llvm::Type::Int1Ty
.val i8_type : llcontext -> lltype
i8_type c
returns an integer type of bitwidth 8 in the context c
. See
llvm::Type::Int8Ty
.val i16_type : llcontext -> lltype
i16_type c
returns an integer type of bitwidth 16 in the context c
. See
llvm::Type::Int16Ty
.val i32_type : llcontext -> lltype
i32_type c
returns an integer type of bitwidth 32 in the context c
. See
llvm::Type::Int32Ty
.val i64_type : llcontext -> lltype
i64_type c
returns an integer type of bitwidth 64 in the context c
. See
llvm::Type::Int64Ty
.val integer_type : llcontext -> int -> lltype
integer_type c n
returns an integer type of bitwidth n
in the context
c
. See the method llvm::IntegerType::get
.val integer_bitwidth : lltype -> int
integer_bitwidth c ty
returns the number of bits in the integer type ty
in the context c
. See the method llvm::IntegerType::getBitWidth
.val float_type : llcontext -> lltype
float_type c
returns the IEEE 32-bit floating point type in the context
c
. See llvm::Type::FloatTy
.val double_type : llcontext -> lltype
double_type c
returns the IEEE 64-bit floating point type in the context
c
. See llvm::Type::DoubleTy
.val x86fp80_type : llcontext -> lltype
x86fp80_type c
returns the x87 80-bit floating point type in the context
c
. See llvm::Type::X86_FP80Ty
.val fp128_type : llcontext -> lltype
fp128_type c
returns the IEEE 128-bit floating point type in the context
c
. See llvm::Type::FP128Ty
.val ppc_fp128_type : llcontext -> lltype
ppc_fp128_type c
returns the PowerPC 128-bit floating point type in the
context c
. See llvm::Type::PPC_FP128Ty
.val function_type : lltype -> lltype array -> lltype
function_type ret_ty param_tys
returns the function type returning
ret_ty
and taking param_tys
as parameters.
See the method llvm::FunctionType::get
.val var_arg_function_type : lltype -> lltype array -> lltype
var_arg_function_type ret_ty param_tys
is just like
function_type ret_ty param_tys
except that it returns the function type
which also takes a variable number of arguments.
See the method llvm::FunctionType::get
.val is_var_arg : lltype -> bool
is_var_arg fty
returns true
if fty
is a varargs function type, false
otherwise. See the method llvm::FunctionType::isVarArg
.val return_type : lltype -> lltype
return_type fty
gets the return type of the function type fty
.
See the method llvm::FunctionType::getReturnType
.val param_types : lltype -> lltype array
param_types fty
gets the parameter types of the function type fty
.
See the method llvm::FunctionType::getParamType
.val struct_type : llcontext -> lltype array -> lltype
struct_type context tys
returns the structure type in the context
context
containing in the types in the array tys
. See the method
llvm::StructType::get
.val packed_struct_type : llcontext -> lltype array -> lltype
packed_struct_type context ys
returns the packed structure type in the
context context
containing in the types in the array tys
. See the method
llvm::StructType::get
.val struct_name : lltype -> string option
struct_name ty
returns the name of the named structure type ty
,
or None if the structure type is not namedval named_struct_type : llcontext -> string -> lltype
named_struct_type context name
returns the named structure type name
in the context context
.
See the method llvm::StructType::get
.val struct_set_body : lltype -> lltype array -> bool -> unit
struct_set_body ty elts ispacked
sets the body of the named struct ty
to the elts
elements.
See the moethd llvm::StructType::setBody
.val struct_element_types : lltype -> lltype array
struct_element_types sty
returns the constituent types of the struct type
sty
. See the method llvm::StructType::getElementType
.val is_packed : lltype -> bool
is_packed sty
returns true
if the structure type sty
is packed,
false
otherwise. See the method llvm::StructType::isPacked
.val is_opaque : lltype -> bool
is_opaque sty
returns true
if the structure type sty
is opaque.
false
otherwise. See the method llvm::StructType::isOpaque
.val array_type : lltype -> int -> lltype
array_type ty n
returns the array type containing n
elements of type
ty
. See the method llvm::ArrayType::get
.val pointer_type : lltype -> lltype
pointer_type ty
returns the pointer type referencing objects of type
ty
in the default address space (0).
See the method llvm::PointerType::getUnqual
.val qualified_pointer_type : lltype -> int -> lltype
qualified_pointer_type ty as
returns the pointer type referencing objects
of type ty
in address space as
.
See the method llvm::PointerType::get
.val vector_type : lltype -> int -> lltype
vector_type ty n
returns the array type containing n
elements of the
primitive type ty
. See the method llvm::ArrayType::get
.val element_type : lltype -> lltype
element_type ty
returns the element type of the pointer, vector, or array
type ty
. See the method llvm::SequentialType::get
.val array_length : lltype -> int
element_type aty
returns the element count of the array type aty
.
See the method llvm::ArrayType::getNumElements
.val address_space : lltype -> int
address_space pty
returns the address space qualifier of the pointer type
pty
. See the method llvm::PointerType::getAddressSpace
.val vector_size : lltype -> int
element_type ty
returns the element count of the vector type ty
.
See the method llvm::VectorType::getNumElements
.val void_type : llcontext -> lltype
void_type c
creates a type of a function which does not return any
value in the context c
. See llvm::Type::VoidTy
.val label_type : llcontext -> lltype
label_type c
creates a type of a basic block in the context c
. See
llvm::Type::LabelTy
.val x86_mmx_type : llcontext -> lltype
x86_mmx_type c
returns the x86 64-bit MMX register type in the
context c
. See llvm::Type::X86_MMXTy
.val type_by_name : llmodule -> string -> lltype option
type_by_name m name
returns the specified type from the current module
if it exists.
See the method llvm::Module::getTypeByName
val type_of : llvalue -> lltype
type_of v
returns the type of the value v
.
See the method llvm::Value::getType
.val classify_value : llvalue -> ValueKind.t
classify_value v
returns the kind of the value v
.val value_name : llvalue -> string
value_name v
returns the name of the value v
. For global values, this is
the symbol name. For instructions and basic blocks, it is the SSA register
name. It is meaningless for constants.
See the method llvm::Value::getName
.val set_value_name : string -> llvalue -> unit
set_value_name n v
sets the name of the value v
to n
. See the method
llvm::Value::setName
.val dump_value : llvalue -> unit
dump_value v
prints the .ll representation of the value v
to standard
error. See the method llvm::Value::dump
.val string_of_llvalue : llvalue -> string
string_of_llvalue v
returns a string describing the value v
.val replace_all_uses_with : llvalue -> llvalue -> unit
replace_all_uses_with old new
replaces all uses of the value old
with the value new
. See the method llvm::Value::replaceAllUsesWith
.val use_begin : llvalue -> lluse option
use_begin v
returns the first position in the use list for the value v
.
use_begin
and use_succ
can e used to iterate over the use list in order.
See the method llvm::Value::use_begin
.val use_succ : lluse -> lluse option
use_succ u
returns the use list position succeeding u
.
See the method llvm::use_value_iterator::operator++
.val user : lluse -> llvalue
user u
returns the user of the use u
.
See the method llvm::Use::getUser
.val used_value : lluse -> llvalue
used_value u
returns the usee of the use u
.
See the method llvm::Use::getUsedValue
.val iter_uses : (lluse -> unit) -> llvalue -> unit
iter_uses f v
applies function f
to each of the users of the value v
in order. Tail recursive.val fold_left_uses : ('a -> lluse -> 'a) -> 'a -> llvalue -> 'a
fold_left_uses f init v
is f (... (f init u1) ...) uN
where
u1,...,uN
are the users of the value v
. Tail recursive.val fold_right_uses : (lluse -> 'a -> 'a) -> llvalue -> 'a -> 'a
fold_right_uses f v init
is f u1 (... (f uN init) ...)
where
u1,...,uN
are the users of the value v
. Not tail recursive.val operand : llvalue -> int -> llvalue
operand v i
returns the operand at index i
for the value v
. See the
method llvm::User::getOperand
.val operand_use : llvalue -> int -> lluse
operand_use v i
returns the use of the operand at index i
for the value v
. See the
method llvm::User::getOperandUse
.val set_operand : llvalue -> int -> llvalue -> unit
set_operand v i o
sets the operand of the value v
at the index i
to
the value o
.
See the method llvm::User::setOperand
.val num_operands : llvalue -> int
num_operands v
returns the number of operands for the value v
.
See the method llvm::User::getNumOperands
.val is_constant : llvalue -> bool
is_constant v
returns true
if the value v
is a constant, false
otherwise. Similar to llvm::isa<Constant>
.val const_null : lltype -> llvalue
const_null ty
returns the constant null (zero) of the type ty
.
See the method llvm::Constant::getNullValue
.val const_all_ones : lltype -> llvalue
const_all_ones ty
returns the constant '-1' of the integer or vector type
ty
. See the method llvm::Constant::getAllOnesValue
.val const_pointer_null : lltype -> llvalue
const_pointer_null ty
returns the constant null (zero) pointer of the type
ty
. See the method llvm::ConstantPointerNull::get
.val undef : lltype -> llvalue
undef ty
returns the undefined value of the type ty
.
See the method llvm::UndefValue::get
.val is_null : llvalue -> bool
is_null v
returns true
if the value v
is the null (zero) value.
See the method llvm::Constant::isNullValue
.val is_undef : llvalue -> bool
is_undef v
returns true
if the value v
is an undefined value, false
otherwise. Similar to llvm::isa<UndefValue>
.val constexpr_opcode : llvalue -> Opcode.t
constexpr_opcode v
returns an Opcode.t
corresponding to constexpr
value v
, or Opcode.Invalid
if v
is not a constexpr.val has_metadata : llvalue -> bool
has_metadata i
returns whether or not the instruction i
has any
metadata attached to it. See the function
llvm::Instruction::hasMetadata
.val metadata : llvalue -> llmdkind -> llvalue option
metadata i kind
optionally returns the metadata associated with the
kind kind
in the instruction i
See the function
llvm::Instruction::getMetadata
.val set_metadata : llvalue -> llmdkind -> llvalue -> unit
set_metadata i kind md
sets the metadata md
of kind kind
in the
instruction i
. See the function llvm::Instruction::setMetadata
.val clear_metadata : llvalue -> llmdkind -> unit
clear_metadata i kind
clears the metadata of kind kind
in the
instruction i
. See the function llvm::Instruction::setMetadata
.val mdstring : llcontext -> string -> llvalue
mdstring c s
returns the MDString of the string s
in the context c
.
See the method llvm::MDNode::get
.val mdnode : llcontext -> llvalue array -> llvalue
mdnode c elts
returns the MDNode containing the values elts
in the
context c
.
See the method llvm::MDNode::get
.val mdnull : llcontext -> llvalue
mdnull c
returns a null MDNode in context c
.val get_mdstring : llvalue -> string option
get_mdstring v
returns the MDString.
See the method llvm::MDString::getString
val get_named_metadata : llmodule -> string -> llvalue array
get_named_metadata m name
returns all the MDNodes belonging to the named
metadata (if any).
See the method llvm::NamedMDNode::getOperand
.val add_named_metadata_operand : llmodule -> string -> llvalue -> unit
add_named_metadata_operand m name v
adds v
as the last operand of
metadata named name
in module m
. If the metadata does not exist,
it is created.
See the methods llvm::Module::getNamedMetadata()
and
llvm::MDNode::addOperand()
.val const_int : lltype -> int -> llvalue
const_int ty i
returns the integer constant of type ty
and value i
.
See the method llvm::ConstantInt::get
.val const_of_int64 : lltype -> Int64.t -> bool -> llvalue
const_of_int64 ty i
returns the integer constant of type ty
and value
i
. See the method llvm::ConstantInt::get
.val int64_of_const : llvalue -> Int64.t option
int64_of_const c
returns the int64 value of the c
constant integer.
None is returned if this is not an integer constant, or bitwidth exceeds 64.
See the method llvm::ConstantInt::getSExtValue
.val const_int_of_string : lltype -> string -> int -> llvalue
const_int_of_string ty s r
returns the integer constant of type ty
and
value s
, with the radix r
. See the method llvm::ConstantInt::get
.val const_float : lltype -> float -> llvalue
const_float ty n
returns the floating point constant of type ty
and
value n
. See the method llvm::ConstantFP::get
.val float_of_const : llvalue -> float option
float_of_const c
returns the float value of the c
constant float.
None is returned if this is not an float constant.
See the method llvm::ConstantFP::getDoubleValue
.val const_float_of_string : lltype -> string -> llvalue
const_float_of_string ty s
returns the floating point constant of type
ty
and value n
. See the method llvm::ConstantFP::get
.val const_string : llcontext -> string -> llvalue
const_string c s
returns the constant i8
array with the values of the
characters in the string s
in the context c
. The array is not
null-terminated (but see Llvm.const_stringz
). This value can in turn be used
as the initializer for a global variable. See the method
llvm::ConstantArray::get
.val const_stringz : llcontext -> string -> llvalue
const_stringz c s
returns the constant i8
array with the values of the
characters in the string s
and a null terminator in the context c
. This
value can in turn be used as the initializer for a global variable.
See the method llvm::ConstantArray::get
.val const_array : lltype -> llvalue array -> llvalue
const_array ty elts
returns the constant array of type
array_type ty (Array.length elts)
and containing the values elts
.
This value can in turn be used as the initializer for a global variable.
See the method llvm::ConstantArray::get
.val const_struct : llcontext -> llvalue array -> llvalue
const_struct context elts
returns the structured constant of type
struct_type (Array.map type_of elts)
and containing the values elts
in the context context
. This value can in turn be used as the initializer
for a global variable. See the method llvm::ConstantStruct::getAnon
.val const_named_struct : lltype -> llvalue array -> llvalue
const_named_struct namedty elts
returns the structured constant of type
namedty
(which must be a named structure type) and containing the values elts
.
This value can in turn be used as the initializer
for a global variable. See the method llvm::ConstantStruct::get
.val const_packed_struct : llcontext -> llvalue array -> llvalue
const_packed_struct context elts
returns the structured constant of
type Llvm.packed_struct_type
(Array.map type_of elts)
and containing the
values elts
in the context context
. This value can in turn be used as
the initializer for a global variable. See the method
llvm::ConstantStruct::get
.val const_vector : llvalue array -> llvalue
const_vector elts
returns the vector constant of type
vector_type (type_of elts.(0)) (Array.length elts)
and containing the
values elts
. See the method llvm::ConstantVector::get
.val string_of_const : llvalue -> string option
string_of_const c
returns Some str
if c
is a string constant,
or None
if this is not a string constant.val const_element : llvalue -> int -> llvalue
const_element c
returns a constant for a specified index's element.
See the method ConstantDataSequential::getElementAsConstant.val align_of : lltype -> llvalue
align_of ty
returns the alignof constant for the type ty
. This is
equivalent to const_ptrtoint (const_gep (const_null (pointer_type {i8,ty}))
(const_int i32_type 0) (const_int i32_type 1)) i32_type
, but considerably
more readable. See the method llvm::ConstantExpr::getAlignOf
.val size_of : lltype -> llvalue
size_of ty
returns the sizeof constant for the type ty
. This is
equivalent to const_ptrtoint (const_gep (const_null (pointer_type ty))
(const_int i32_type 1)) i64_type
, but considerably more readable.
See the method llvm::ConstantExpr::getSizeOf
.val const_neg : llvalue -> llvalue
const_neg c
returns the arithmetic negation of the constant c
.
See the method llvm::ConstantExpr::getNeg
.val const_nsw_neg : llvalue -> llvalue
const_nsw_neg c
returns the arithmetic negation of the constant c
with
no signed wrapping. The result is undefined if the negation overflows.
See the method llvm::ConstantExpr::getNSWNeg
.val const_nuw_neg : llvalue -> llvalue
const_nuw_neg c
returns the arithmetic negation of the constant c
with
no unsigned wrapping. The result is undefined if the negation overflows.
See the method llvm::ConstantExpr::getNUWNeg
.val const_fneg : llvalue -> llvalue
const_fneg c
returns the arithmetic negation of the constant float c
.
See the method llvm::ConstantExpr::getFNeg
.val const_not : llvalue -> llvalue
const_not c
returns the bitwise inverse of the constant c
.
See the method llvm::ConstantExpr::getNot
.val const_add : llvalue -> llvalue -> llvalue
const_add c1 c2
returns the constant sum of two constants.
See the method llvm::ConstantExpr::getAdd
.val const_nsw_add : llvalue -> llvalue -> llvalue
const_nsw_add c1 c2
returns the constant sum of two constants with no
signed wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWAdd
.val const_nuw_add : llvalue -> llvalue -> llvalue
const_nuw_add c1 c2
returns the constant sum of two constants with no
unsigned wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWAdd
.val const_fadd : llvalue -> llvalue -> llvalue
const_fadd c1 c2
returns the constant sum of two constant floats.
See the method llvm::ConstantExpr::getFAdd
.val const_sub : llvalue -> llvalue -> llvalue
const_sub c1 c2
returns the constant difference, c1 - c2
, of two
constants. See the method llvm::ConstantExpr::getSub
.val const_nsw_sub : llvalue -> llvalue -> llvalue
const_nsw_sub c1 c2
returns the constant difference of two constants with
no signed wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWSub
.val const_nuw_sub : llvalue -> llvalue -> llvalue
const_nuw_sub c1 c2
returns the constant difference of two constants with
no unsigned wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWSub
.val const_fsub : llvalue -> llvalue -> llvalue
const_fsub c1 c2
returns the constant difference, c1 - c2
, of two
constant floats. See the method llvm::ConstantExpr::getFSub
.val const_mul : llvalue -> llvalue -> llvalue
const_mul c1 c2
returns the constant product of two constants.
See the method llvm::ConstantExpr::getMul
.val const_nsw_mul : llvalue -> llvalue -> llvalue
const_nsw_mul c1 c2
returns the constant product of two constants with
no signed wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWMul
.val const_nuw_mul : llvalue -> llvalue -> llvalue
const_nuw_mul c1 c2
returns the constant product of two constants with
no unsigned wrapping. The result is undefined if the sum overflows.
See the method llvm::ConstantExpr::getNSWMul
.val const_fmul : llvalue -> llvalue -> llvalue
const_fmul c1 c2
returns the constant product of two constants floats.
See the method llvm::ConstantExpr::getFMul
.val const_udiv : llvalue -> llvalue -> llvalue
const_udiv c1 c2
returns the constant quotient c1 / c2
of two unsigned
integer constants.
See the method llvm::ConstantExpr::getUDiv
.val const_sdiv : llvalue -> llvalue -> llvalue
const_sdiv c1 c2
returns the constant quotient c1 / c2
of two signed
integer constants.
See the method llvm::ConstantExpr::getSDiv
.val const_exact_sdiv : llvalue -> llvalue -> llvalue
const_exact_sdiv c1 c2
returns the constant quotient c1 / c2
of two
signed integer constants. The result is undefined if the result is rounded
or overflows. See the method llvm::ConstantExpr::getExactSDiv
.val const_fdiv : llvalue -> llvalue -> llvalue
const_fdiv c1 c2
returns the constant quotient c1 / c2
of two floating
point constants.
See the method llvm::ConstantExpr::getFDiv
.val const_urem : llvalue -> llvalue -> llvalue
const_urem c1 c2
returns the constant remainder c1 MOD c2
of two
unsigned integer constants.
See the method llvm::ConstantExpr::getURem
.val const_srem : llvalue -> llvalue -> llvalue
const_srem c1 c2
returns the constant remainder c1 MOD c2
of two
signed integer constants.
See the method llvm::ConstantExpr::getSRem
.val const_frem : llvalue -> llvalue -> llvalue
const_frem c1 c2
returns the constant remainder c1 MOD c2
of two
signed floating point constants.
See the method llvm::ConstantExpr::getFRem
.val const_and : llvalue -> llvalue -> llvalue
const_and c1 c2
returns the constant bitwise AND
of two integer
constants.
See the method llvm::ConstantExpr::getAnd
.val const_or : llvalue -> llvalue -> llvalue
const_or c1 c2
returns the constant bitwise OR
of two integer
constants.
See the method llvm::ConstantExpr::getOr
.val const_xor : llvalue -> llvalue -> llvalue
const_xor c1 c2
returns the constant bitwise XOR
of two integer
constants.
See the method llvm::ConstantExpr::getXor
.val const_icmp : Icmp.t -> llvalue -> llvalue -> llvalue
const_icmp pred c1 c2
returns the constant comparison of two integer
constants, c1 pred c2
.
See the method llvm::ConstantExpr::getICmp
.val const_fcmp : Fcmp.t -> llvalue -> llvalue -> llvalue
const_fcmp pred c1 c2
returns the constant comparison of two floating
point constants, c1 pred c2
.
See the method llvm::ConstantExpr::getFCmp
.val const_shl : llvalue -> llvalue -> llvalue
const_shl c1 c2
returns the constant integer c1
left-shifted by the
constant integer c2
.
See the method llvm::ConstantExpr::getShl
.val const_lshr : llvalue -> llvalue -> llvalue
const_lshr c1 c2
returns the constant integer c1
right-shifted by the
constant integer c2
with zero extension.
See the method llvm::ConstantExpr::getLShr
.val const_ashr : llvalue -> llvalue -> llvalue
const_ashr c1 c2
returns the constant integer c1
right-shifted by the
constant integer c2
with sign extension.
See the method llvm::ConstantExpr::getAShr
.val const_gep : llvalue -> llvalue array -> llvalue
const_gep pc indices
returns the constant getElementPtr
of pc
with the
constant integers indices from the array indices
.
See the method llvm::ConstantExpr::getGetElementPtr
.val const_in_bounds_gep : llvalue -> llvalue array -> llvalue
const_in_bounds_gep pc indices
returns the constant getElementPtr
of pc
with the constant integers indices from the array indices
.
See the method llvm::ConstantExpr::getInBoundsGetElementPtr
.val const_trunc : llvalue -> lltype -> llvalue
const_trunc c ty
returns the constant truncation of integer constant c
to the smaller integer type ty
.
See the method llvm::ConstantExpr::getTrunc
.val const_sext : llvalue -> lltype -> llvalue
const_sext c ty
returns the constant sign extension of integer constant
c
to the larger integer type ty
.
See the method llvm::ConstantExpr::getSExt
.val const_zext : llvalue -> lltype -> llvalue
const_zext c ty
returns the constant zero extension of integer constant
c
to the larger integer type ty
.
See the method llvm::ConstantExpr::getZExt
.val const_fptrunc : llvalue -> lltype -> llvalue
const_fptrunc c ty
returns the constant truncation of floating point
constant c
to the smaller floating point type ty
.
See the method llvm::ConstantExpr::getFPTrunc
.val const_fpext : llvalue -> lltype -> llvalue
const_fpext c ty
returns the constant extension of floating point constant
c
to the larger floating point type ty
.
See the method llvm::ConstantExpr::getFPExt
.val const_uitofp : llvalue -> lltype -> llvalue
const_uitofp c ty
returns the constant floating point conversion of
unsigned integer constant c
to the floating point type ty
.
See the method llvm::ConstantExpr::getUIToFP
.val const_sitofp : llvalue -> lltype -> llvalue
const_sitofp c ty
returns the constant floating point conversion of
signed integer constant c
to the floating point type ty
.
See the method llvm::ConstantExpr::getSIToFP
.val const_fptoui : llvalue -> lltype -> llvalue
const_fptoui c ty
returns the constant unsigned integer conversion of
floating point constant c
to integer type ty
.
See the method llvm::ConstantExpr::getFPToUI
.val const_fptosi : llvalue -> lltype -> llvalue
const_fptoui c ty
returns the constant unsigned integer conversion of
floating point constant c
to integer type ty
.
See the method llvm::ConstantExpr::getFPToSI
.val const_ptrtoint : llvalue -> lltype -> llvalue
const_ptrtoint c ty
returns the constant integer conversion of
pointer constant c
to integer type ty
.
See the method llvm::ConstantExpr::getPtrToInt
.val const_inttoptr : llvalue -> lltype -> llvalue
const_inttoptr c ty
returns the constant pointer conversion of
integer constant c
to pointer type ty
.
See the method llvm::ConstantExpr::getIntToPtr
.val const_bitcast : llvalue -> lltype -> llvalue
const_bitcast c ty
returns the constant bitwise conversion of constant c
to type ty
of equal size.
See the method llvm::ConstantExpr::getBitCast
.val const_zext_or_bitcast : llvalue -> lltype -> llvalue
const_zext_or_bitcast c ty
returns a constant zext or bitwise cast
conversion of constant c
to type ty
.
See the method llvm::ConstantExpr::getZExtOrBitCast
.val const_sext_or_bitcast : llvalue -> lltype -> llvalue
const_sext_or_bitcast c ty
returns a constant sext or bitwise cast
conversion of constant c
to type ty
.
See the method llvm::ConstantExpr::getSExtOrBitCast
.val const_trunc_or_bitcast : llvalue -> lltype -> llvalue
const_trunc_or_bitcast c ty
returns a constant trunc or bitwise cast
conversion of constant c
to type ty
.
See the method llvm::ConstantExpr::getTruncOrBitCast
.val const_pointercast : llvalue -> lltype -> llvalue
const_pointercast c ty
returns a constant bitcast or a pointer-to-int
cast conversion of constant c
to type ty
of equal size.
See the method llvm::ConstantExpr::getPointerCast
.val const_intcast : llvalue -> lltype -> is_signed:bool -> llvalue
const_intcast c ty ~is_signed
returns a constant sext/zext, bitcast,
or trunc for integer -> integer casts of constant c
to type ty
.
When converting a narrower value to a wider one, whether sext or zext
will be used is controlled by is_signed
.
See the method llvm::ConstantExpr::getIntegerCast
.val const_fpcast : llvalue -> lltype -> llvalue
const_fpcast c ty
returns a constant fpext, bitcast, or fptrunc for fp ->
fp casts of constant c
to type ty
.
See the method llvm::ConstantExpr::getFPCast
.val const_select : llvalue -> llvalue -> llvalue -> llvalue
const_select cond t f
returns the constant conditional which returns value
t
if the boolean constant cond
is true and the value f
otherwise.
See the method llvm::ConstantExpr::getSelect
.val const_extractelement : llvalue -> llvalue -> llvalue
const_extractelement vec i
returns the constant i
th element of
constant vector vec
. i
must be a constant i32
value unsigned less than
the size of the vector.
See the method llvm::ConstantExpr::getExtractElement
.val const_insertelement : llvalue -> llvalue -> llvalue -> llvalue
const_insertelement vec v i
returns the constant vector with the same
elements as constant vector v
but the i
th element replaced by the
constant v
. v
must be a constant value with the type of the vector
elements. i
must be a constant i32
value unsigned less than the size
of the vector.
See the method llvm::ConstantExpr::getInsertElement
.val const_shufflevector : llvalue -> llvalue -> llvalue -> llvalue
const_shufflevector a b mask
returns a constant shufflevector
.
See the LLVM Language Reference for details on the shufflevector
instruction.
See the method llvm::ConstantExpr::getShuffleVector
.val const_extractvalue : llvalue -> int array -> llvalue
const_extractvalue agg idxs
returns the constant idxs
th value of
constant aggregate agg
. Each idxs
must be less than the size of the
aggregate. See the method llvm::ConstantExpr::getExtractValue
.val const_insertvalue : llvalue -> llvalue -> int array -> llvalue
const_insertvalue agg val idxs
inserts the value val
in the specified
indexs idxs
in the aggegate agg
. Each idxs
must be less than the size
of the aggregate. See the method llvm::ConstantExpr::getInsertValue
.val const_inline_asm : lltype -> string -> string -> bool -> bool -> llvalue
const_inline_asm ty asm con side align
inserts a inline assembly string.
See the method llvm::InlineAsm::get
.val block_address : llvalue -> llbasicblock -> llvalue
block_address f bb
returns the address of the basic block bb
in the
function f
. See the method llvm::BasicBlock::get
.val global_parent : llvalue -> llmodule
global_parent g
is the enclosing module of the global value g
.
See the method llvm::GlobalValue::getParent
.val is_declaration : llvalue -> bool
is_declaration g
returns true
if the global value g
is a declaration
only. Returns false
otherwise.
See the method llvm::GlobalValue::isDeclaration
.val linkage : llvalue -> Linkage.t
linkage g
returns the linkage of the global value g
.
See the method llvm::GlobalValue::getLinkage
.val set_linkage : Linkage.t -> llvalue -> unit
set_linkage l g
sets the linkage of the global value g
to l
.
See the method llvm::GlobalValue::setLinkage
.val unnamed_addr : llvalue -> bool
unnamed_addr g
returns true
if the global value g
has the unnamed_addr
attribute. Returns false
otherwise.
See the method llvm::GlobalValue::getUnnamedAddr
.val set_unnamed_addr : bool -> llvalue -> unit
set_unnamed_addr b g
if b
is true
, sets the unnamed_addr attribute of
the global value g
. Unset it otherwise.
See the method llvm::GlobalValue::setUnnamedAddr
.val section : llvalue -> string
section g
returns the linker section of the global value g
.
See the method llvm::GlobalValue::getSection
.val set_section : string -> llvalue -> unit
set_section s g
sets the linker section of the global value g
to s
.
See the method llvm::GlobalValue::setSection
.val visibility : llvalue -> Visibility.t
visibility g
returns the linker visibility of the global value g
.
See the method llvm::GlobalValue::getVisibility
.val set_visibility : Visibility.t -> llvalue -> unit
set_visibility v g
sets the linker visibility of the global value g
to
v
. See the method llvm::GlobalValue::setVisibility
.val dll_storage_class : llvalue -> DLLStorageClass.t
dll_storage_class g
returns the DLL storage class of the global value g
.
See the method llvm::GlobalValue::getDLLStorageClass
.val set_dll_storage_class : DLLStorageClass.t -> llvalue -> unit
set_dll_storage_class v g
sets the DLL storage class of the global value g
to
v
. See the method llvm::GlobalValue::setDLLStorageClass
.val alignment : llvalue -> int
alignment g
returns the required alignment of the global value g
.
See the method llvm::GlobalValue::getAlignment
.val set_alignment : int -> llvalue -> unit
set_alignment n g
sets the required alignment of the global value g
to
n
bytes. See the method llvm::GlobalValue::setAlignment
.val declare_global : lltype -> string -> llmodule -> llvalue
declare_global ty name m
returns a new global variable of type ty
and
with name name
in module m
in the default address space (0). If such a
global variable already exists, it is returned. If the type of the existing
global differs, then a bitcast to ty
is returned.val declare_qualified_global : lltype -> string -> int -> llmodule -> llvalue
declare_qualified_global ty name addrspace m
returns a new global variable
of type ty
and with name name
in module m
in the address space
addrspace
. If such a global variable already exists, it is returned. If
the type of the existing global differs, then a bitcast to ty
is
returned.val define_global : string -> llvalue -> llmodule -> llvalue
define_global name init m
returns a new global with name name
and
initializer init
in module m
in the default address space (0). If the
named global already exists, it is renamed.
See the constructor of llvm::GlobalVariable
.val define_qualified_global : string -> llvalue -> int -> llmodule -> llvalue
define_qualified_global name init addrspace m
returns a new global with
name name
and initializer init
in module m
in the address space
addrspace
. If the named global already exists, it is renamed.
See the constructor of llvm::GlobalVariable
.val lookup_global : string -> llmodule -> llvalue option
lookup_global name m
returns Some g
if a global variable with name
name
exists in module m
. If no such global exists, returns None
.
See the llvm::GlobalVariable
constructor.val delete_global : llvalue -> unit
delete_global gv
destroys the global variable gv
.
See the method llvm::GlobalVariable::eraseFromParent
.val global_begin : llmodule -> (llmodule, llvalue) llpos
global_begin m
returns the first position in the global variable list of
the module m
. global_begin
and global_succ
can be used to iterate
over the global list in order.
See the method llvm::Module::global_begin
.val global_succ : llvalue -> (llmodule, llvalue) llpos
global_succ gv
returns the global variable list position succeeding
Before gv
.
See the method llvm::Module::global_iterator::operator++
.val iter_globals : (llvalue -> unit) -> llmodule -> unit
iter_globals f m
applies function f
to each of the global variables of
module m
in order. Tail recursive.val fold_left_globals : ('a -> llvalue -> 'a) -> 'a -> llmodule -> 'a
fold_left_globals f init m
is f (... (f init g1) ...) gN
where
g1,...,gN
are the global variables of module m
. Tail recursive.val global_end : llmodule -> (llmodule, llvalue) llrev_pos
global_end m
returns the last position in the global variable list of the
module m
. global_end
and global_pred
can be used to iterate over the
global list in reverse.
See the method llvm::Module::global_end
.val global_pred : llvalue -> (llmodule, llvalue) llrev_pos
global_pred gv
returns the global variable list position preceding
After gv
.
See the method llvm::Module::global_iterator::operator--
.val rev_iter_globals : (llvalue -> unit) -> llmodule -> unit
rev_iter_globals f m
applies function f
to each of the global variables
of module m
in reverse order. Tail recursive.val fold_right_globals : (llvalue -> 'a -> 'a) -> llmodule -> 'a -> 'a
fold_right_globals f m init
is f g1 (... (f gN init) ...)
where
g1,...,gN
are the global variables of module m
. Tail recursive.val is_global_constant : llvalue -> bool
is_global_constant gv
returns true
if the global variabile gv
is a
constant. Returns false
otherwise.
See the method llvm::GlobalVariable::isConstant
.val set_global_constant : bool -> llvalue -> unit
set_global_constant c gv
sets the global variable gv
to be a constant if
c
is true
and not if c
is false
.
See the method llvm::GlobalVariable::setConstant
.val global_initializer : llvalue -> llvalue
global_initializer gv
returns the initializer for the global variable
gv
. See the method llvm::GlobalVariable::getInitializer
.val set_initializer : llvalue -> llvalue -> unit
set_initializer c gv
sets the initializer for the global variable
gv
to the constant c
.
See the method llvm::GlobalVariable::setInitializer
.val remove_initializer : llvalue -> unit
remove_initializer gv
unsets the initializer for the global variable
gv
.
See the method llvm::GlobalVariable::setInitializer
.val is_thread_local : llvalue -> bool
is_thread_local gv
returns true
if the global variable gv
is
thread-local and false
otherwise.
See the method llvm::GlobalVariable::isThreadLocal
.val set_thread_local : bool -> llvalue -> unit
set_thread_local c gv
sets the global variable gv
to be thread local if
c
is true
and not otherwise.
See the method llvm::GlobalVariable::setThreadLocal
.val thread_local_mode : llvalue -> ThreadLocalMode.t
is_thread_local gv
returns the thread local mode of the global
variable gv
.
See the method llvm::GlobalVariable::getThreadLocalMode
.val set_thread_local_mode : ThreadLocalMode.t -> llvalue -> unit
set_thread_local c gv
sets the thread local mode of the global
variable gv
.
See the method llvm::GlobalVariable::setThreadLocalMode
.val is_externally_initialized : llvalue -> bool
is_externally_initialized gv
returns true
if the global
variable gv
is externally initialized and false
otherwise.
See the method llvm::GlobalVariable::isExternallyInitialized
.val set_externally_initialized : bool -> llvalue -> unit
set_externally_initialized c gv
sets the global variable gv
to be
externally initialized if c
is true
and not otherwise.
See the method llvm::GlobalVariable::setExternallyInitialized
.val add_alias : llmodule -> lltype -> llvalue -> string -> llvalue
add_alias m t a n
inserts an alias in the module m
with the type t
and
the aliasee a
with the name n
.
See the constructor for llvm::GlobalAlias
.val declare_function : string -> lltype -> llmodule -> llvalue
declare_function name ty m
returns a new function of type ty
and
with name name
in module m
. If such a function already exists,
it is returned. If the type of the existing function differs, then a bitcast
to ty
is returned.val define_function : string -> lltype -> llmodule -> llvalue
define_function name ty m
creates a new function with name name
and
type ty
in module m
. If the named function already exists, it is
renamed. An entry basic block is created in the function.
See the constructor of llvm::GlobalVariable
.val lookup_function : string -> llmodule -> llvalue option
lookup_function name m
returns Some f
if a function with name
name
exists in module m
. If no such function exists, returns None
.
See the method llvm::Module
constructor.val delete_function : llvalue -> unit
delete_function f
destroys the function f
.
See the method llvm::Function::eraseFromParent
.val function_begin : llmodule -> (llmodule, llvalue) llpos
function_begin m
returns the first position in the function list of the
module m
. function_begin
and function_succ
can be used to iterate over
the function list in order.
See the method llvm::Module::begin
.val function_succ : llvalue -> (llmodule, llvalue) llpos
function_succ gv
returns the function list position succeeding
Before gv
.
See the method llvm::Module::iterator::operator++
.val iter_functions : (llvalue -> unit) -> llmodule -> unit
iter_functions f m
applies function f
to each of the functions of module
m
in order. Tail recursive.val fold_left_functions : ('a -> llvalue -> 'a) -> 'a -> llmodule -> 'a
fold_left_function f init m
is f (... (f init f1) ...) fN
where
f1,...,fN
are the functions of module m
. Tail recursive.val function_end : llmodule -> (llmodule, llvalue) llrev_pos
function_end m
returns the last position in the function list of
the module m
. function_end
and function_pred
can be used to iterate
over the function list in reverse.
See the method llvm::Module::end
.val function_pred : llvalue -> (llmodule, llvalue) llrev_pos
function_pred gv
returns the function list position preceding After gv
.
See the method llvm::Module::iterator::operator--
.val rev_iter_functions : (llvalue -> unit) -> llmodule -> unit
rev_iter_functions f fn
applies function f
to each of the functions of
module m
in reverse order. Tail recursive.val fold_right_functions : (llvalue -> 'a -> 'a) -> llmodule -> 'a -> 'a
fold_right_functions f m init
is f (... (f init fN) ...) f1
where
f1,...,fN
are the functions of module m
. Tail recursive.val is_intrinsic : llvalue -> bool
is_intrinsic f
returns true if the function f
is an intrinsic.
See the method llvm::Function::isIntrinsic
.val function_call_conv : llvalue -> int
function_call_conv f
returns the calling convention of the function f
.
See the method llvm::Function::getCallingConv
.val set_function_call_conv : int -> llvalue -> unit
set_function_call_conv cc f
sets the calling convention of the function
f
to the calling convention numbered cc
.
See the method llvm::Function::setCallingConv
.val gc : llvalue -> string option
gc f
returns Some name
if the function f
has a garbage
collection algorithm specified and None
otherwise.
See the method llvm::Function::getGC
.val set_gc : string option -> llvalue -> unit
set_gc gc f
sets the collection algorithm for the function f
to
gc
. See the method llvm::Function::setGC
.val add_function_attr : llvalue -> Attribute.t -> unit
add_function_attr f a
adds attribute a
to the return type of function
f
.val add_target_dependent_function_attr : llvalue -> string -> string -> unit
add_target_dependent_function_attr f a
adds target-dependent attribute
a
to function f
.val function_attr : llvalue -> Attribute.t list
function_attr f
returns the function attribute for the function f
.
See the method llvm::Function::getAttributes
val remove_function_attr : llvalue -> Attribute.t -> unit
remove_function_attr f a
removes attribute a
from the return type of
function f
.val params : llvalue -> llvalue array
params f
returns the parameters of function f
.
See the method llvm::Function::getArgumentList
.val param : llvalue -> int -> llvalue
param f n
returns the n
th parameter of function f
.
See the method llvm::Function::getArgumentList
.val param_attr : llvalue -> Attribute.t list
param_attr p
returns the attributes of parameter p
.
See the methods llvm::Function::getAttributes
and
llvm::Attributes::getParamAttributes
val param_parent : llvalue -> llvalue
param_parent p
returns the parent function that owns the parameter.
See the method llvm::Argument::getParent
.val param_begin : llvalue -> (llvalue, llvalue) llpos
param_begin f
returns the first position in the parameter list of the
function f
. param_begin
and param_succ
can be used to iterate over
the parameter list in order.
See the method llvm::Function::arg_begin
.val param_succ : llvalue -> (llvalue, llvalue) llpos
param_succ bb
returns the parameter list position succeeding
Before bb
.
See the method llvm::Function::arg_iterator::operator++
.val iter_params : (llvalue -> unit) -> llvalue -> unit
iter_params f fn
applies function f
to each of the parameters
of function fn
in order. Tail recursive.val fold_left_params : ('a -> llvalue -> 'a) -> 'a -> llvalue -> 'a
fold_left_params f init fn
is f (... (f init b1) ...) bN
where
b1,...,bN
are the parameters of function fn
. Tail recursive.val param_end : llvalue -> (llvalue, llvalue) llrev_pos
param_end f
returns the last position in the parameter list of
the function f
. param_end
and param_pred
can be used to iterate
over the parameter list in reverse.
See the method llvm::Function::arg_end
.val param_pred : llvalue -> (llvalue, llvalue) llrev_pos
param_pred gv
returns the function list position preceding After gv
.
See the method llvm::Function::arg_iterator::operator--
.val rev_iter_params : (llvalue -> unit) -> llvalue -> unit
rev_iter_params f fn
applies function f
to each of the parameters
of function fn
in reverse order. Tail recursive.val fold_right_params : (llvalue -> 'a -> 'a) -> llvalue -> 'a -> 'a
fold_right_params f fn init
is f (... (f init bN) ...) b1
where
b1,...,bN
are the parameters of function fn
. Tail recursive.val add_param_attr : llvalue -> Attribute.t -> unit
add_param p a
adds attribute a
to parameter p
.val remove_param_attr : llvalue -> Attribute.t -> unit
remove_param_attr p a
removes attribute a
from parameter p
.val set_param_alignment : llvalue -> int -> unit
set_param_alignment p a
set the alignment of parameter p
to a
.val basic_blocks : llvalue -> llbasicblock array
basic_blocks fn
returns the basic blocks of the function f
.
See the method llvm::Function::getBasicBlockList
.val entry_block : llvalue -> llbasicblock
entry_block fn
returns the entry basic block of the function f
.
See the method llvm::Function::getEntryBlock
.val delete_block : llbasicblock -> unit
delete_block bb
deletes the basic block bb
.
See the method llvm::BasicBlock::eraseFromParent
.val remove_block : llbasicblock -> unit
remove_block bb
removes the basic block bb
from its parent function.
See the method llvm::BasicBlock::removeFromParent
.val move_block_before : llbasicblock -> llbasicblock -> unit
move_block_before pos bb
moves the basic block bb
before pos
.
See the method llvm::BasicBlock::moveBefore
.val move_block_after : llbasicblock -> llbasicblock -> unit
move_block_after pos bb
moves the basic block bb
after pos
.
See the method llvm::BasicBlock::moveAfter
.val append_block : llcontext -> string -> llvalue -> llbasicblock
append_block c name f
creates a new basic block named name
at the end of
function f
in the context c
.
See the constructor of llvm::BasicBlock
.val insert_block : llcontext -> string -> llbasicblock -> llbasicblock
insert_block c name bb
creates a new basic block named name
before the
basic block bb
in the context c
.
See the constructor of llvm::BasicBlock
.val block_parent : llbasicblock -> llvalue
block_parent bb
returns the parent function that owns the basic block.
See the method llvm::BasicBlock::getParent
.val block_begin : llvalue -> (llvalue, llbasicblock) llpos
block_begin f
returns the first position in the basic block list of the
function f
. block_begin
and block_succ
can be used to iterate over
the basic block list in order.
See the method llvm::Function::begin
.val block_succ : llbasicblock -> (llvalue, llbasicblock) llpos
block_succ bb
returns the basic block list position succeeding
Before bb
.
See the method llvm::Function::iterator::operator++
.val iter_blocks : (llbasicblock -> unit) -> llvalue -> unit
iter_blocks f fn
applies function f
to each of the basic blocks
of function fn
in order. Tail recursive.val fold_left_blocks : ('a -> llbasicblock -> 'a) -> 'a -> llvalue -> 'a
fold_left_blocks f init fn
is f (... (f init b1) ...) bN
where
b1,...,bN
are the basic blocks of function fn
. Tail recursive.val block_end : llvalue -> (llvalue, llbasicblock) llrev_pos
block_end f
returns the last position in the basic block list of
the function f
. block_end
and block_pred
can be used to iterate
over the basic block list in reverse.
See the method llvm::Function::end
.val block_pred : llbasicblock -> (llvalue, llbasicblock) llrev_pos
block_pred bb
returns the basic block list position preceding After bb
.
See the method llvm::Function::iterator::operator--
.val block_terminator : llbasicblock -> llvalue option
block_terminator bb
returns the terminator of the basic block bb
.val rev_iter_blocks : (llbasicblock -> unit) -> llvalue -> unit
rev_iter_blocks f fn
applies function f
to each of the basic blocks
of function fn
in reverse order. Tail recursive.val fold_right_blocks : (llbasicblock -> 'a -> 'a) -> llvalue -> 'a -> 'a
fold_right_blocks f fn init
is f (... (f init bN) ...) b1
where
b1,...,bN
are the basic blocks of function fn
. Tail recursive.val value_of_block : llbasicblock -> llvalue
value_of_block bb
losslessly casts bb
to an llvalue
.val value_is_block : llvalue -> bool
value_is_block v
returns true
if the value v
is a basic block and
false
otherwise.
Similar to llvm::isa<BasicBlock>
.val block_of_value : llvalue -> llbasicblock
block_of_value v
losslessly casts v
to an llbasicblock
.val instr_parent : llvalue -> llbasicblock
instr_parent i
is the enclosing basic block of the instruction i
.
See the method llvm::Instruction::getParent
.val delete_instruction : llvalue -> unit
delete_instruction i
deletes the instruction i
.
* See the method llvm::Instruction::eraseFromParent
.val instr_begin : llbasicblock -> (llbasicblock, llvalue) llpos
instr_begin bb
returns the first position in the instruction list of the
basic block bb
. instr_begin
and instr_succ
can be used to iterate over
the instruction list in order.
See the method llvm::BasicBlock::begin
.val instr_succ : llvalue -> (llbasicblock, llvalue) llpos
instr_succ i
returns the instruction list position succeeding Before i
.
See the method llvm::BasicBlock::iterator::operator++
.val iter_instrs : (llvalue -> unit) -> llbasicblock -> unit
iter_instrs f bb
applies function f
to each of the instructions of basic
block bb
in order. Tail recursive.val fold_left_instrs : ('a -> llvalue -> 'a) -> 'a -> llbasicblock -> 'a
fold_left_instrs f init bb
is f (... (f init g1) ...) gN
where
g1,...,gN
are the instructions of basic block bb
. Tail recursive.val instr_end : llbasicblock -> (llbasicblock, llvalue) llrev_pos
instr_end bb
returns the last position in the instruction list of the
basic block bb
. instr_end
and instr_pred
can be used to iterate over
the instruction list in reverse.
See the method llvm::BasicBlock::end
.val instr_pred : llvalue -> (llbasicblock, llvalue) llrev_pos
instr_pred i
returns the instruction list position preceding After i
.
See the method llvm::BasicBlock::iterator::operator--
.val fold_right_instrs : (llvalue -> 'a -> 'a) -> llbasicblock -> 'a -> 'a
fold_right_instrs f bb init
is f (... (f init fN) ...) f1
where
f1,...,fN
are the instructions of basic block bb
. Tail recursive.val instr_opcode : llvalue -> Opcode.t
inst_opcode i
returns the Opcode.t
corresponding to instruction i
,
or Opcode.Invalid
if i
is not an instruction.val icmp_predicate : llvalue -> Icmp.t option
icmp_predicate i
returns the Icmp.t
corresponding to an icmp
instruction i
.val fcmp_predicate : llvalue -> Fcmp.t option
fcmp_predicate i
returns the fcmp.t
corresponding to an fcmp
instruction i
.val instr_clone : llvalue -> llvalue
inst_clone i
returns a copy of instruction i
,
The instruction has no parent, and no name.
See the method llvm::Instruction::clone
.val instruction_call_conv : llvalue -> int
instruction_call_conv ci
is the calling convention for the call or invoke
instruction ci
, which may be one of the values from the module
Llvm.CallConv
. See the method llvm::CallInst::getCallingConv
and
llvm::InvokeInst::getCallingConv
.val set_instruction_call_conv : int -> llvalue -> unit
set_instruction_call_conv cc ci
sets the calling convention for the call
or invoke instruction ci
to the integer cc
, which can be one of the
values from the module Llvm.CallConv
.
See the method llvm::CallInst::setCallingConv
and llvm::InvokeInst::setCallingConv
.val add_instruction_param_attr : llvalue -> int -> Attribute.t -> unit
add_instruction_param_attr ci i a
adds attribute a
to the i
th
parameter of the call or invoke instruction ci
. i
=0 denotes the return
value.val remove_instruction_param_attr : llvalue -> int -> Attribute.t -> unit
remove_instruction_param_attr ci i a
removes attribute a
from the
i
th parameter of the call or invoke instruction ci
. i
=0 denotes the
return value.val is_tail_call : llvalue -> bool
is_tail_call ci
is true
if the call instruction ci
is flagged as
eligible for tail call optimization, false
otherwise.
See the method llvm::CallInst::isTailCall
.val set_tail_call : bool -> llvalue -> unit
set_tail_call tc ci
flags the call instruction ci
as eligible for tail
call optimization if tc
is true
, clears otherwise.
See the method llvm::CallInst::setTailCall
.val is_volatile : llvalue -> bool
is_volatile i
is true
if the load or store instruction i
is marked
as volatile.
See the methods llvm::LoadInst::isVolatile
and
llvm::StoreInst::isVolatile
.val set_volatile : bool -> llvalue -> unit
set_volatile v i
marks the load or store instruction i
as volatile
if v
is true
, unmarks otherwise.
See the methods llvm::LoadInst::setVolatile
and
llvm::StoreInst::setVolatile
.val is_terminator : llvalue -> bool
is_terminator v
returns true if the instruction v
is a terminator.val successor : llvalue -> int -> llbasicblock
successor v i
returns the successor at index i
for the value v
.
See the method llvm::TerminatorInst::getSuccessor
.val set_successor : llvalue -> int -> llbasicblock -> unit
set_successor v i o
sets the successor of the value v
at the index i
to
the value o
.
See the method llvm::TerminatorInst::setSuccessor
.val num_successors : llvalue -> int
num_successors v
returns the number of successors for the value v
.
See the method llvm::TerminatorInst::getNumSuccessors
.val successors : llvalue -> llbasicblock array
successors v
returns the successors of v
.val iter_successors : (llbasicblock -> unit) -> llvalue -> unit
iter_successors f v
applies function f to each successor v
in order. Tail recursive.val fold_successors : (llbasicblock -> 'a -> 'a) -> llvalue -> 'a -> 'a
fold_successors f v init
is f (... (f init vN) ...) v1
where v1,...,vN
are the successors of v
. Tail recursive.val is_conditional : llvalue -> bool
is_conditional v
returns true if the branch instruction v
is conditional.
See the method llvm::BranchInst::isConditional
.val condition : llvalue -> llvalue
condition v
return the condition of the branch instruction v
.
See the method llvm::BranchInst::getCondition
.val set_condition : llvalue -> llvalue -> unit
set_condition v c
sets the condition of the branch instruction v
to the value c
.
See the method llvm::BranchInst::setCondition
.val get_branch : llvalue ->
[ `Conditional of llvalue * llbasicblock * llbasicblock
| `Unconditional of llbasicblock ] option
get_branch c
returns a description of the branch instruction c
.val add_incoming : llvalue * llbasicblock -> llvalue -> unit
add_incoming (v, bb) pn
adds the value v
to the phi node pn
for use
with branches from bb
. See the method llvm::PHINode::addIncoming
.val incoming : llvalue -> (llvalue * llbasicblock) list
incoming pn
returns the list of value-block pairs for phi node pn
.
See the method llvm::PHINode::getIncomingValue
.val builder : llcontext -> llbuilder
builder context
creates an instruction builder with no position in
the context context
. It is invalid to use this builder until its position
is set with Llvm.position_before
or Llvm.position_at_end
. See the constructor
for llvm::LLVMBuilder
.val builder_at : llcontext ->
(llbasicblock, llvalue) llpos -> llbuilder
builder_at ip
creates an instruction builder positioned at ip
.
See the constructor for llvm::LLVMBuilder
.val builder_before : llcontext -> llvalue -> llbuilder
builder_before ins
creates an instruction builder positioned before the
instruction isn
. See the constructor for llvm::LLVMBuilder
.val builder_at_end : llcontext -> llbasicblock -> llbuilder
builder_at_end bb
creates an instruction builder positioned at the end of
the basic block bb
. See the constructor for llvm::LLVMBuilder
.val position_builder : (llbasicblock, llvalue) llpos -> llbuilder -> unit
position_builder ip bb
moves the instruction builder bb
to the position
ip
.
See the constructor for llvm::LLVMBuilder
.val position_before : llvalue -> llbuilder -> unit
position_before ins b
moves the instruction builder b
to before the
instruction isn
. See the method llvm::LLVMBuilder::SetInsertPoint
.val position_at_end : llbasicblock -> llbuilder -> unit
position_at_end bb b
moves the instruction builder b
to the end of the
basic block bb
. See the method llvm::LLVMBuilder::SetInsertPoint
.val insertion_block : llbuilder -> llbasicblock
insertion_block b
returns the basic block that the builder b
is
positioned to insert into. Raises Not_Found
if the instruction builder is
uninitialized.
See the method llvm::LLVMBuilder::GetInsertBlock
.val insert_into_builder : llvalue -> string -> llbuilder -> unit
insert_into_builder i name b
inserts the specified instruction i
at the
position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::Insert
.val set_current_debug_location : llbuilder -> llvalue -> unit
set_current_debug_location b md
sets the current debug location md
in
the builder b
.
See the method llvm::IRBuilder::SetDebugLocation
.val clear_current_debug_location : llbuilder -> unit
clear_current_debug_location b
clears the current debug location in the
builder b
.val current_debug_location : llbuilder -> llvalue option
current_debug_location b
returns the current debug location, or None
if none is currently set.
See the method llvm::IRBuilder::GetDebugLocation
.val set_inst_debug_location : llbuilder -> llvalue -> unit
set_inst_debug_location b i
sets the current debug location of the builder
b
to the instruction i
.
See the method llvm::IRBuilder::SetInstDebugLocation
.val build_ret_void : llbuilder -> llvalue
build_ret_void b
creates a
ret void
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateRetVoid
.val build_ret : llvalue -> llbuilder -> llvalue
build_ret v b
creates a
ret %v
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateRet
.val build_aggregate_ret : llvalue array -> llbuilder -> llvalue
build_aggregate_ret vs b
creates a
ret {...} { %v1, %v2, ... }
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAggregateRet
.val build_br : llbasicblock -> llbuilder -> llvalue
build_br bb b
creates a
br %bb
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateBr
.val build_cond_br : llvalue ->
llbasicblock -> llbasicblock -> llbuilder -> llvalue
build_cond_br cond tbb fbb b
creates a
br %cond, %tbb, %fbb
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateCondBr
.val build_switch : llvalue -> llbasicblock -> int -> llbuilder -> llvalue
build_switch case elsebb count b
creates an empty
switch %case, %elsebb
instruction at the position specified by the instruction builder b
with
space reserved for count
cases.
See the method llvm::LLVMBuilder::CreateSwitch
.val build_malloc : lltype -> string -> llbuilder -> llvalue
build_malloc ty name b
creates an malloc
instruction at the position specified by the instruction builder b
.
See the method llvm::CallInst::CreateMalloc
.val build_array_malloc : lltype -> llvalue -> string -> llbuilder -> llvalue
build_array_malloc ty val name b
creates an array malloc
instruction at the position specified by the instruction builder b
.
See the method llvm::CallInst::CreateArrayMalloc
.val build_free : llvalue -> llbuilder -> llvalue
build_free p b
creates a free
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFree
.val add_case : llvalue -> llvalue -> llbasicblock -> unit
add_case sw onval bb
causes switch instruction sw
to branch to bb
when its input matches the constant onval
.
See the method llvm::SwitchInst::addCase
. *val switch_default_dest : llvalue -> llbasicblock
switch_default_dest sw
returns the default destination of the switch
instruction.
See the method llvm:;SwitchInst::getDefaultDest
. *val build_indirect_br : llvalue -> int -> llbuilder -> llvalue
build_indirect_br addr count b
creates a
indirectbr %addr
instruction at the position specified by the instruction builder b
with
space reserved for count
destinations.
See the method llvm::LLVMBuilder::CreateIndirectBr
.val add_destination : llvalue -> llbasicblock -> unit
add_destination br bb
adds the basic block bb
as a possible branch
location for the indirectbr instruction br
.
See the method llvm::IndirectBrInst::addDestination
. *val build_invoke : llvalue ->
llvalue array ->
llbasicblock ->
llbasicblock -> string -> llbuilder -> llvalue
build_invoke fn args tobb unwindbb name b
creates an
%name = invoke %fn(args) to %tobb unwind %unwindbb
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateInvoke
.val build_landingpad : lltype ->
llvalue -> int -> string -> llbuilder -> llvalue
build_landingpad ty persfn numclauses name b
creates an
landingpad
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateLandingPad
.val set_cleanup : llvalue -> bool -> unit
set_cleanup lp
sets the cleanup flag in the landingpad
instruction.
See the method llvm::LandingPadInst::setCleanup
.val add_clause : llvalue -> llvalue -> unit
add_clause lp clause
adds the clause to the landingpad
instruction.
See the method llvm::LandingPadInst::addClause
.val build_resume : llvalue -> llbuilder -> llvalue
build_resume exn b
builds a resume exn
instruction
at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateResume
val build_unreachable : llbuilder -> llvalue
build_unreachable b
creates an
unreachable
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateUnwind
.val build_add : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_add x y name b
creates a
%name = add %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAdd
.val build_nsw_add : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nsw_add x y name b
creates a
%name = nsw add %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNSWAdd
.val build_nuw_add : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nuw_add x y name b
creates a
%name = nuw add %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNUWAdd
.val build_fadd : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_fadd x y name b
creates a
%name = fadd %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFAdd
.val build_sub : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_sub x y name b
creates a
%name = sub %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSub
.val build_nsw_sub : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nsw_sub x y name b
creates a
%name = nsw sub %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNSWSub
.val build_nuw_sub : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nuw_sub x y name b
creates a
%name = nuw sub %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNUWSub
.val build_fsub : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_fsub x y name b
creates a
%name = fsub %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFSub
.val build_mul : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_mul x y name b
creates a
%name = mul %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateMul
.val build_nsw_mul : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nsw_mul x y name b
creates a
%name = nsw mul %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNSWMul
.val build_nuw_mul : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_nuw_mul x y name b
creates a
%name = nuw mul %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateNUWMul
.val build_fmul : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_fmul x y name b
creates a
%name = fmul %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFMul
.val build_udiv : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_udiv x y name b
creates a
%name = udiv %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateUDiv
.val build_sdiv : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_sdiv x y name b
creates a
%name = sdiv %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSDiv
.val build_exact_sdiv : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_exact_sdiv x y name b
creates a
%name = exact sdiv %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateExactSDiv
.val build_fdiv : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_fdiv x y name b
creates a
%name = fdiv %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFDiv
.val build_urem : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_urem x y name b
creates a
%name = urem %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateURem
.val build_srem : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_SRem x y name b
creates a
%name = srem %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSRem
.val build_frem : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_frem x y name b
creates a
%name = frem %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFRem
.val build_shl : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_shl x y name b
creates a
%name = shl %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateShl
.val build_lshr : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_lshr x y name b
creates a
%name = lshr %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateLShr
.val build_ashr : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_ashr x y name b
creates a
%name = ashr %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAShr
.val build_and : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_and x y name b
creates a
%name = and %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAnd
.val build_or : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_or x y name b
creates a
%name = or %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateOr
.val build_xor : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_xor x y name b
creates a
%name = xor %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateXor
.val build_neg : llvalue -> string -> llbuilder -> llvalue
build_neg x name b
creates a
%name = sub 0, %x
instruction at the position specified by the instruction builder b
.
-0.0
is used for floating point types to compute the correct sign.
See the method llvm::LLVMBuilder::CreateNeg
.val build_nsw_neg : llvalue -> string -> llbuilder -> llvalue
build_nsw_neg x name b
creates a
%name = nsw sub 0, %x
instruction at the position specified by the instruction builder b
.
-0.0
is used for floating point types to compute the correct sign.
See the method llvm::LLVMBuilder::CreateNeg
.val build_nuw_neg : llvalue -> string -> llbuilder -> llvalue
build_nuw_neg x name b
creates a
%name = nuw sub 0, %x
instruction at the position specified by the instruction builder b
.
-0.0
is used for floating point types to compute the correct sign.
See the method llvm::LLVMBuilder::CreateNeg
.val build_fneg : llvalue -> string -> llbuilder -> llvalue
build_fneg x name b
creates a
%name = fsub 0, %x
instruction at the position specified by the instruction builder b
.
-0.0
is used for floating point types to compute the correct sign.
See the method llvm::LLVMBuilder::CreateFNeg
.val build_not : llvalue -> string -> llbuilder -> llvalue
build_xor x name b
creates a
%name = xor %x, -1
instruction at the position specified by the instruction builder b
.
-1
is the correct "all ones" value for the type of x
.
See the method llvm::LLVMBuilder::CreateXor
.val build_alloca : lltype -> string -> llbuilder -> llvalue
build_alloca ty name b
creates a
%name = alloca %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAlloca
.val build_array_alloca : lltype -> llvalue -> string -> llbuilder -> llvalue
build_array_alloca ty n name b
creates a
%name = alloca %ty, %n
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateAlloca
.val build_load : llvalue -> string -> llbuilder -> llvalue
build_load v name b
creates a
%name = load %v
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateLoad
.val build_store : llvalue -> llvalue -> llbuilder -> llvalue
build_store v p b
creates a
store %v, %p
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateStore
.val build_atomicrmw : AtomicRMWBinOp.t ->
llvalue ->
llvalue ->
AtomicOrdering.t -> bool -> string -> llbuilder -> llvalue
build_atomicrmw op ptr val o st b
creates an atomicrmw
instruction with
operation op
performed on pointer ptr
and value val
with ordering o
and singlethread flag set to st
at the position specified by
the instruction builder b
.
See the method llvm::IRBuilder::CreateAtomicRMW
.val build_gep : llvalue ->
llvalue array -> string -> llbuilder -> llvalue
build_gep p indices name b
creates a
%name = getelementptr %p, indices...
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateGetElementPtr
.val build_in_bounds_gep : llvalue ->
llvalue array -> string -> llbuilder -> llvalue
build_in_bounds_gep p indices name b
creates a
%name = gelementptr inbounds %p, indices...
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateInBoundsGetElementPtr
.val build_struct_gep : llvalue -> int -> string -> llbuilder -> llvalue
build_struct_gep p idx name b
creates a
%name = getelementptr %p, 0, idx
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateStructGetElementPtr
.val build_global_string : string -> string -> llbuilder -> llvalue
build_global_string str name b
creates a series of instructions that adds
a global string at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateGlobalString
.val build_global_stringptr : string -> string -> llbuilder -> llvalue
build_global_stringptr str name b
creates a series of instructions that
adds a global string pointer at the position specified by the instruction
builder b
.
See the method llvm::LLVMBuilder::CreateGlobalStringPtr
.val build_trunc : llvalue -> lltype -> string -> llbuilder -> llvalue
build_trunc v ty name b
creates a
%name = trunc %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateTrunc
.val build_zext : llvalue -> lltype -> string -> llbuilder -> llvalue
build_zext v ty name b
creates a
%name = zext %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateZExt
.val build_sext : llvalue -> lltype -> string -> llbuilder -> llvalue
build_sext v ty name b
creates a
%name = sext %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSExt
.val build_fptoui : llvalue -> lltype -> string -> llbuilder -> llvalue
build_fptoui v ty name b
creates a
%name = fptoui %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFPToUI
.val build_fptosi : llvalue -> lltype -> string -> llbuilder -> llvalue
build_fptosi v ty name b
creates a
%name = fptosi %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFPToSI
.val build_uitofp : llvalue -> lltype -> string -> llbuilder -> llvalue
build_uitofp v ty name b
creates a
%name = uitofp %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateUIToFP
.val build_sitofp : llvalue -> lltype -> string -> llbuilder -> llvalue
build_sitofp v ty name b
creates a
%name = sitofp %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSIToFP
.val build_fptrunc : llvalue -> lltype -> string -> llbuilder -> llvalue
build_fptrunc v ty name b
creates a
%name = fptrunc %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFPTrunc
.val build_fpext : llvalue -> lltype -> string -> llbuilder -> llvalue
build_fpext v ty name b
creates a
%name = fpext %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFPExt
.val build_ptrtoint : llvalue -> lltype -> string -> llbuilder -> llvalue
build_ptrtoint v ty name b
creates a
%name = prtotint %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreatePtrToInt
.val build_inttoptr : llvalue -> lltype -> string -> llbuilder -> llvalue
build_inttoptr v ty name b
creates a
%name = inttoptr %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateIntToPtr
.val build_bitcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_bitcast v ty name b
creates a
%name = bitcast %p to %ty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateBitCast
.val build_zext_or_bitcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_zext_or_bitcast v ty name b
creates a zext or bitcast
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateZExtOrBitCast
.val build_sext_or_bitcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_sext_or_bitcast v ty name b
creates a sext or bitcast
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSExtOrBitCast
.val build_trunc_or_bitcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_trunc_or_bitcast v ty name b
creates a trunc or bitcast
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateZExtOrBitCast
.val build_pointercast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_pointercast v ty name b
creates a bitcast or pointer-to-int
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreatePointerCast
.val build_intcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_intcast v ty name b
creates a zext, bitcast, or trunc
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateIntCast
.val build_fpcast : llvalue -> lltype -> string -> llbuilder -> llvalue
build_fpcast v ty name b
creates a fpext, bitcast, or fptrunc
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFPCast
.val build_icmp : Icmp.t ->
llvalue -> llvalue -> string -> llbuilder -> llvalue
build_icmp pred x y name b
creates a
%name = icmp %pred %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateICmp
.val build_fcmp : Fcmp.t ->
llvalue -> llvalue -> string -> llbuilder -> llvalue
build_fcmp pred x y name b
creates a
%name = fcmp %pred %x, %y
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateFCmp
.val build_phi : (llvalue * llbasicblock) list ->
string -> llbuilder -> llvalue
build_phi incoming name b
creates a
%name = phi %incoming
instruction at the position specified by the instruction builder b
.
incoming
is a list of (llvalue, llbasicblock)
tuples.
See the method llvm::LLVMBuilder::CreatePHI
.val build_empty_phi : lltype -> string -> llbuilder -> llvalue
build_empty_phi ty name b
creates a
%name = phi %ty
instruction at the position specified by
the instruction builder b
. ty
is the type of the instruction.
See the method llvm::LLVMBuilder::CreatePHI
.val build_call : llvalue ->
llvalue array -> string -> llbuilder -> llvalue
build_call fn args name b
creates a
%name = call %fn(args...)
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateCall
.val build_select : llvalue ->
llvalue -> llvalue -> string -> llbuilder -> llvalue
build_select cond thenv elsev name b
creates a
%name = select %cond, %thenv, %elsev
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateSelect
.val build_va_arg : llvalue -> lltype -> string -> llbuilder -> llvalue
build_va_arg valist argty name b
creates a
%name = va_arg %valist, %argty
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateVAArg
.val build_extractelement : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_extractelement vec i name b
creates a
%name = extractelement %vec, %i
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateExtractElement
.val build_insertelement : llvalue ->
llvalue -> llvalue -> string -> llbuilder -> llvalue
build_insertelement vec elt i name b
creates a
%name = insertelement %vec, %elt, %i
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateInsertElement
.val build_shufflevector : llvalue ->
llvalue -> llvalue -> string -> llbuilder -> llvalue
build_shufflevector veca vecb mask name b
creates a
%name = shufflevector %veca, %vecb, %mask
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateShuffleVector
.val build_extractvalue : llvalue -> int -> string -> llbuilder -> llvalue
build_extractvalue agg idx name b
creates a
%name = extractvalue %agg, %idx
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateExtractValue
.val build_insertvalue : llvalue ->
llvalue -> int -> string -> llbuilder -> llvalue
build_insertvalue agg val idx name b
creates a
%name = insertvalue %agg, %val, %idx
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateInsertValue
.val build_is_null : llvalue -> string -> llbuilder -> llvalue
build_is_null val name b
creates a
%name = icmp eq %val, null
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateIsNull
.val build_is_not_null : llvalue -> string -> llbuilder -> llvalue
build_is_not_null val name b
creates a
%name = icmp ne %val, null
instruction at the position specified by the instruction builder b
.
See the method llvm::LLVMBuilder::CreateIsNotNull
.val build_ptrdiff : llvalue -> llvalue -> string -> llbuilder -> llvalue
build_ptrdiff lhs rhs name b
creates a series of instructions that measure
the difference between two pointer values at the position specified by the
instruction builder b
.
See the method llvm::LLVMBuilder::CreatePtrDiff
.module MemoryBuffer:sig
..end
module PassManager:sig
..end