Index of values

Computes the ABI alignment of a type in bytes for a target.

Computes the ABI size of a type in bytes for a target.

See the llvm::createAggressiveDCEPass function.

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 llvm::createAlignmentFromAssumptionsPass function.

See the llvm::createAlwaysInlinerPass function.

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

See the llvm::createAddArgumentPromotionPass function.

See the llvm::createBasicAliasAnalysisPass function.

add_call_site_attr f a i adds attribute a to the call instruction ci at position i.

add_case sw onval bb causes switch instruction sw to branch to bb when its input matches the constant onval.

See the llvm::createCFGSimplificationPass function.

add_clause lp clause adds the clause to the landingpadinstruction.

See the llvm::createConstantMergePass function.

See the llvm::createConstantPropagationPass function.

See the llvm::createCorrelatedValuePropagationPass function.

See the llvm::createDeadArgEliminationPass function.

See llvm::createDeadStoreEliminationPass function.

add_destination br bb adds the basic block bb as a possible branch location for the indirectbr instruction br.

See the llvm::createEarlyCSE function.

add_function_attr f a i adds attribute a to the function f at position i.

See the llvm::createFunctionAttrsPass function.

See the llvm::createFunctionInliningPass function.

See the llvm::createGlobalDCEPass function.

add_global_mapping gv ptr ee tells the execution engine ee that the global gv is at the specified location ptr, which must outlive gv and ee.

See the llvm::createGlobalOptimizerPass function.

See the llvm::createGVNPass function.

add_incoming (v, bb) pn adds the value v to the phi node pn for use with branches from bb.

See the llvm::createIndVarSimplifyPass function.

See the llvm::createInstructionCombiningPass function.

See the llvm::createInternalizePass function.

See the llvm::createIPConstantPropagationPass function.

See the llvm::createIPSCCPPass function.

See the llvm::createJumpThreadingPass function.

See the llvm::createSimplifyLibCallsPass function.

See the llvm::createLICMPass function.

See the llvm::createLoopDeletionPass function.

See the llvm::createLoopIdiomPass function.

See the llvm::createLoopRerollPass function.

See the llvm::createLoopRotatePass function.

See the llvm::createLoopUnrollPass function.

See the llvm::createLoopUnswitchPass function.

See the llvm::createLoopVectorizePass function.

See the llvm::createLowerExpectIntrinsicPass function.

See the llvm::createLowerSwitchPass function.

See the llvm::createMemCpyOptPass function.

See the llvm::createDemoteMemoryToRegisterPass function.

See the llvm::createPromoteMemoryToRegisterPass function.

See llvm::createMergedLoadStoreMotionPass function.

add_module m ee adds the module m to the execution engine ee.

add_named_metadata_operand m name v adds v as the last operand of metadata named name in module m.

See the llvm::createPartiallyInlineLibCallsPass function.

See the llvm::createPruneEHPass function.

See the llvm::createReassociatePass function.

See the llvm::createSROAPass function.

See the llvm::createSROAPass function.

See the llvm::createSROAPass function.

See llvm::createScalarizerPass function.

See the llvm::createSCCPPass function.

See the llvm::createScopedNoAliasAAPass function.

See the llvm::createSLPVectorizerPass function.

See the llvm::createStripDeadPrototypesPass function.

See the llvm::createStripSymbolsPass function.

See the llvm::createTailCallEliminationPass function.

See the llvm::createTypeBasedAliasAnalysisPass function.

See the llvm::createVerifierPass function.

address_space pty returns the address space qualifier of the pointer type pty.

align_of ty returns the alignof constant for the type ty.

alignment g returns the required alignment of the global value g.

all () returns a list of known targets.

append_block c name f creates a new basic block named name at the end of function f in the context c.

element_type aty returns the element count of the array type aty.

array_type ty n returns the array type containing n elements of type ty.

as_string dl is the string representation of the data layout dl.

as_string mb is the string containing the contents of memory buffer mb.

verify_function f returns if the function f is valid, but prints a validation report to stderr and aborts the program if it is invalid.

verify_module m returns if the module m is valid, but prints a validation report to stderr and aborts the program if it is invalid.

attr_of_repr context repr creates an attribute with the supplied representation repr in context.

basic_blocks fn returns the basic blocks of the function f.

block_address f bb returns the address of the basic block bb in the function f.

block_begin f returns the first position in the basic block list of the function f.

block_end f returns the last position in the basic block list of the function f.

block_of_value v losslessly casts v to an llbasicblock.

block_parent bb returns the parent function that owns the basic block.

block_pred bb returns the basic block list position preceding After bb.

block_succ bb returns the basic block list position succeeding Before bb.

block_terminator bb returns the terminator of the basic block bb.

build_add x y name b creates a %name = add %x, %y instruction at the position specified by the instruction builder b.

build_aggregate_ret vs b creates a ret {...} { %v1, %v2, ... } instruction at the position specified by the instruction builder b.

build_alloca ty name b creates a %name = alloca %ty instruction at the position specified by the instruction builder b.

build_and x y name b creates a %name = and %x, %y instruction at the position specified by the instruction builder b.

build_array_alloca ty n name b creates a %name = alloca %ty, %n instruction at the position specified by the instruction builder b.

build_array_malloc ty val name b creates an array malloc instruction at the position specified by the instruction builder b.

build_ashr x y name b creates a %name = ashr %x, %y instruction at the position specified by the instruction builder b.

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.

build_bitcast v ty name b creates a %name = bitcast %p to %ty instruction at the position specified by the instruction builder b.

build_br bb b creates a br %bb instruction at the position specified by the instruction builder b.

build_call fn args name b creates a %name = call %fn(args...) instruction at the position specified by the instruction builder b.

build_cond_br cond tbb fbb b creates a br %cond, %tbb, %fbb instruction at the position specified by the instruction builder b.

build_empty_phi ty name b creates a %name = phi %ty instruction at the position specified by the instruction builder b.

build_exact_sdiv x y name b creates a %name = exact sdiv %x, %y instruction at the position specified by the instruction builder b.

build_extractelement vec i name b creates a %name = extractelement %vec, %i instruction at the position specified by the instruction builder b.

build_extractvalue agg idx name b creates a %name = extractvalue %agg, %idx instruction at the position specified by the instruction builder b.

build_fadd x y name b creates a %name = fadd %x, %y instruction at the position specified by the instruction builder b.

build_fcmp pred x y name b creates a %name = fcmp %pred %x, %y instruction at the position specified by the instruction builder b.

build_fdiv x y name b creates a %name = fdiv %x, %y instruction at the position specified by the instruction builder b.

build_fmul x y name b creates a %name = fmul %x, %y instruction at the position specified by the instruction builder b.

build_fneg x name b creates a %name = fsub 0, %x instruction at the position specified by the instruction builder b.

build_fpcast v ty name b creates a fpext, bitcast, or fptrunc instruction at the position specified by the instruction builder b.

build_fpext v ty name b creates a %name = fpext %p to %ty instruction at the position specified by the instruction builder b.

build_fptosi v ty name b creates a %name = fptosi %p to %ty instruction at the position specified by the instruction builder b.

build_fptoui v ty name b creates a %name = fptoui %p to %ty instruction at the position specified by the instruction builder b.

build_fptrunc v ty name b creates a %name = fptrunc %p to %ty instruction at the position specified by the instruction builder b.

build_free p b creates a free instruction at the position specified by the instruction builder b.

build_frem x y name b creates a %name = frem %x, %y instruction at the position specified by the instruction builder b.

build_fsub x y name b creates a %name = fsub %x, %y instruction at the position specified by the instruction builder b.

build_gep p indices name b creates a %name = getelementptr %p, indices... instruction at the position specified by the instruction builder b.

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.

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.

build_icmp pred x y name b creates a %name = icmp %pred %x, %y instruction at the position specified by the instruction builder b.

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.

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.

build_insertelement vec elt i name b creates a %name = insertelement %vec, %elt, %i instruction at the position specified by the instruction builder b.

build_insertvalue agg val idx name b creates a %name = insertvalue %agg, %val, %idx instruction at the position specified by the instruction builder b.

build_intcast v ty name b creates a zext, bitcast, or trunc instruction at the position specified by the instruction builder b.

build_inttoptr v ty name b creates a %name = inttoptr %p to %ty instruction at the position specified by the instruction builder b.

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.

build_is_not_null val name b creates a %name = icmp ne %val, null instruction at the position specified by the instruction builder b.

build_is_null val name b creates a %name = icmp eq %val, null instruction at the position specified by the instruction builder b.

build_landingpad ty persfn numclauses name b creates an landingpad instruction at the position specified by the instruction builder b.

build_load v name b creates a %name = load %v instruction at the position specified by the instruction builder b.

build_lshr x y name b creates a %name = lshr %x, %y instruction at the position specified by the instruction builder b.

build_malloc ty name b creates an malloc instruction at the position specified by the instruction builder b.

build_mul x y name b creates a %name = mul %x, %y instruction at the position specified by the instruction builder b.

build_neg x name b creates a %name = sub 0, %x instruction at the position specified by the instruction builder b.

build_xor x name b creates a %name = xor %x, -1 instruction at the position specified by the instruction builder b.

build_nsw_add x y name b creates a %name = nsw add %x, %y instruction at the position specified by the instruction builder b.

build_nsw_mul x y name b creates a %name = nsw mul %x, %y instruction at the position specified by the instruction builder b.

build_nsw_neg x name b creates a %name = nsw sub 0, %x instruction at the position specified by the instruction builder b.

build_nsw_sub x y name b creates a %name = nsw sub %x, %y instruction at the position specified by the instruction builder b.

build_nuw_add x y name b creates a %name = nuw add %x, %y instruction at the position specified by the instruction builder b.

build_nuw_mul x y name b creates a %name = nuw mul %x, %y instruction at the position specified by the instruction builder b.

build_nuw_neg x name b creates a %name = nuw sub 0, %x instruction at the position specified by the instruction builder b.

build_nuw_sub x y name b creates a %name = nuw sub %x, %y instruction at the position specified by the instruction builder b.

build_or x y name b creates a %name = or %x, %y instruction at the position specified by the instruction builder b.

build_phi incoming name b creates a %name = phi %incoming instruction at the position specified by the instruction builder b.

build_pointercast v ty name b creates a bitcast or pointer-to-int instruction at the position specified by the instruction builder b.

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.

build_ptrtoint v ty name b creates a %name = prtotint %p to %ty instruction at the position specified by the instruction builder b.

build_resume exn b builds a resume exn instruction at the position specified by the instruction builder b.

build_ret v b creates a ret %v instruction at the position specified by the instruction builder b.

build_ret_void b creates a ret void instruction at the position specified by the instruction builder b.

build_sdiv x y name b creates a %name = sdiv %x, %y instruction at the position specified by the instruction builder b.

build_select cond thenv elsev name b creates a %name = select %cond, %thenv, %elsev instruction at the position specified by the instruction builder b.

build_sext v ty name b creates a %name = sext %p to %ty instruction at the position specified by the instruction builder b.

build_sext_or_bitcast v ty name b creates a sext or bitcast instruction at the position specified by the instruction builder b.

build_shl x y name b creates a %name = shl %x, %y instruction at the position specified by the instruction builder b.

build_shufflevector veca vecb mask name b creates a %name = shufflevector %veca, %vecb, %mask instruction at the position specified by the instruction builder b.

build_sitofp v ty name b creates a %name = sitofp %p to %ty instruction at the position specified by the instruction builder b.

build_SRem x y name b creates a %name = srem %x, %y instruction at the position specified by the instruction builder b.

build_store v p b creates a store %v, %p instruction at the position specified by the instruction builder b.

build_struct_gep p idx name b creates a %name = getelementptr %p, 0, idx instruction at the position specified by the instruction builder b.

build_sub x y name b creates a %name = sub %x, %y instruction at the position specified by the instruction builder b.

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.

build_trunc v ty name b creates a %name = trunc %p to %ty instruction at the position specified by the instruction builder b.

build_trunc_or_bitcast v ty name b creates a trunc or bitcast instruction at the position specified by the instruction builder b.

build_udiv x y name b creates a %name = udiv %x, %y instruction at the position specified by the instruction builder b.

build_uitofp v ty name b creates a %name = uitofp %p to %ty instruction at the position specified by the instruction builder b.

build_unreachable b creates an unreachable instruction at the position specified by the instruction builder b.

build_urem x y name b creates a %name = urem %x, %y instruction at the position specified by the instruction builder b.

build_va_arg valist argty name b creates a %name = va_arg %valist, %argty instruction at the position specified by the instruction builder b.

build_xor x y name b creates a %name = xor %x, %y instruction at the position specified by the instruction builder b.

build_zext v ty name b creates a %name = zext %p to %ty instruction at the position specified by the instruction builder b.

build_zext_or_bitcast v ty name b creates a zext or bitcast instruction at the position specified by the instruction builder b.

builder context creates an instruction builder with no position in the context context.

builder_at ip creates an instruction builder positioned at ip.

builder_at_end bb creates an instruction builder positioned at the end of the basic block bb.

builder_before ins creates an instruction builder positioned before the instruction isn.

by_name name returns Some t if a target t named name is registered, or None otherwise.

by_triple triple returns a target for a triple triple, or raises Error if triple does not correspond to a registered target.

Returns the byte order of a target, either Endian.Big or Endian.Little.

c is the C calling convention.

call_site_attr f i returns the attributes for the call instruction ci at position i.

classify_type ty returns the Llvm.TypeKind.t corresponding to the type ty.

classify_value v returns the kind of the value v.

clear_current_debug_location b clears the current debug location in the builder b.

clear_metadata i kind clears the metadata of kind kind in the instruction i.

clone_module m returns an exact copy of module m.

cold is the calling convention for callee-save.

condition v return the condition of the branch instruction v.

const_add c1 c2 returns the constant sum of two constants.

const_all_ones ty returns the constant '-1' of the integer or vector type ty.

const_and c1 c2 returns the constant bitwise AND of two integer constants.

const_array ty elts returns the constant array of type array_type ty (Array.length elts) and containing the values elts.

const_ashr c1 c2 returns the constant integer c1 right-shifted by the constant integer c2 with sign extension.

const_bitcast c ty returns the constant bitwise conversion of constant c to type ty of equal size.

const_element c returns a constant for a specified index's element.

const_exact_sdiv c1 c2 returns the constant quotient c1 / c2 of two signed integer constants.

const_extractelement vec i returns the constant ith element of constant vector vec.

const_extractvalue agg idxs returns the constant idxsth value of constant aggregate agg.

const_fadd c1 c2 returns the constant sum of two constant floats.

const_fcmp pred c1 c2 returns the constant comparison of two floating point constants, c1 pred c2.

const_fdiv c1 c2 returns the constant quotient c1 / c2 of two floating point constants.

const_float ty n returns the floating point constant of type ty and value n.

const_float_of_string ty s returns the floating point constant of type ty and value n.

const_fmul c1 c2 returns the constant product of two constants floats.

const_fneg c returns the arithmetic negation of the constant float c.

const_fpcast c ty returns a constant fpext, bitcast, or fptrunc for fp -> fp casts of constant c to type ty.

const_fpext c ty returns the constant extension of floating point constant c to the larger floating point type ty.

const_fptoui c ty returns the constant unsigned integer conversion of floating point constant c to integer type ty.

const_fptoui c ty returns the constant unsigned integer conversion of floating point constant c to integer type ty.

const_fptrunc c ty returns the constant truncation of floating point constant c to the smaller floating point type ty.

const_frem c1 c2 returns the constant remainder c1 MOD c2 of two signed floating point constants.

const_fsub c1 c2 returns the constant difference, c1 - c2, of two constant floats.

const_gep pc indices returns the constant getElementPtr of pc with the constant integers indices from the array indices.

const_icmp pred c1 c2 returns the constant comparison of two integer constants, c1 pred c2.

const_in_bounds_gep pc indices returns the constant getElementPtr of pc with the constant integers indices from the array indices.

const_inline_asm ty asm con side align inserts a inline assembly string.

const_insertelement vec v i returns the constant vector with the same elements as constant vector v but the ith element replaced by the constant v.

const_insertvalue agg val idxs inserts the value val in the specified indexs idxs in the aggegate agg.

const_int ty i returns the integer constant of type ty and value i.

const_int_of_string ty s r returns the integer constant of type ty and value s, with the radix r.

const_intcast c ty ~is_signed returns a constant sext/zext, bitcast, or trunc for integer -> integer casts of constant c to type ty.

const_inttoptr c ty returns the constant pointer conversion of integer constant c to pointer type ty.

const_lshr c1 c2 returns the constant integer c1 right-shifted by the constant integer c2 with zero extension.

const_mul c1 c2 returns the constant product of two constants.

const_named_struct namedty elts returns the structured constant of type namedty (which must be a named structure type) and containing the values elts.

const_neg c returns the arithmetic negation of the constant c.

const_not c returns the bitwise inverse of the constant c.

const_nsw_add c1 c2 returns the constant sum of two constants with no signed wrapping.

const_nsw_mul c1 c2 returns the constant product of two constants with no signed wrapping.

const_nsw_neg c returns the arithmetic negation of the constant c with no signed wrapping.

const_nsw_sub c1 c2 returns the constant difference of two constants with no signed wrapping.

const_null ty returns the constant null (zero) of the type ty.

const_nuw_add c1 c2 returns the constant sum of two constants with no unsigned wrapping.

const_nuw_mul c1 c2 returns the constant product of two constants with no unsigned wrapping.

const_nuw_neg c returns the arithmetic negation of the constant c with no unsigned wrapping.

const_nuw_sub c1 c2 returns the constant difference of two constants with no unsigned wrapping.

const_of_int64 ty i returns the integer constant of type ty and value i.

const_or c1 c2 returns the constant bitwise OR of two integer constants.

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.

const_pointer_null ty returns the constant null (zero) pointer of the type ty.

const_pointercast c ty returns a constant bitcast or a pointer-to-int cast conversion of constant c to type ty of equal size.

const_ptrtoint c ty returns the constant integer conversion of pointer constant c to integer type ty.

const_sdiv c1 c2 returns the constant quotient c1 / c2 of two signed integer constants.

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.

const_sext c ty returns the constant sign extension of integer constant c to the larger integer type ty.

const_sext_or_bitcast c ty returns a constant sext or bitwise cast conversion of constant c to type ty.

const_shl c1 c2 returns the constant integer c1 left-shifted by the constant integer c2.

const_shufflevector a b mask returns a constant shufflevector.

const_sitofp c ty returns the constant floating point conversion of signed integer constant c to the floating point type ty.

const_srem c1 c2 returns the constant remainder c1 MOD c2 of two signed integer constants.

const_string c s returns the constant i8 array with the values of the characters in the string s in the context c.

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.

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.

const_sub c1 c2 returns the constant difference, c1 - c2, of two constants.

const_trunc c ty returns the constant truncation of integer constant c to the smaller integer type ty.

const_trunc_or_bitcast c ty returns a constant trunc or bitwise cast conversion of constant c to type ty.

const_udiv c1 c2 returns the constant quotient c1 / c2 of two unsigned integer constants.

const_uitofp c ty returns the constant floating point conversion of unsigned integer constant c to the floating point type ty.

const_urem c1 c2 returns the constant remainder c1 MOD c2 of two unsigned integer constants.

const_vector elts returns the vector constant of type vector_type (type_of elts.(0)) (Array.length elts) and containing the values elts.

const_xor c1 c2 returns the constant bitwise XOR of two integer constants.

const_zext c ty returns the constant zero extension of integer constant c to the larger integer type ty.

const_zext_or_bitcast c ty returns a constant zext or bitwise cast conversion of constant c to type ty.

constexpr_opcode v returns an Opcode.t corresponding to constexpr value v, or Opcode.Invalid if v is not a constexpr.

Returns the CPU used while creating this target machine.

Creates a new target machine.

See the llvm::PassManagerBuilder function.

create m optlevel creates a new MCJIT just-in-time compiler, taking ownership of the module m if successful with the desired optimization level optlevel.

PassManager.create () constructs a new whole-module pass pipeline.

create_context () creates a context for storing the "global" state in LLVM.

create_enum_attr context value kind creates an enum attribute with the supplied kind and value in context; if the value is not required (as for the majority of attributes), use 0L.

PassManager.create_function m constructs a new function-by-function pass pipeline over the module m.

create_module context id creates a module with the supplied module ID in the context context.

create_string_attr context kind value creates a string attribute with the supplied kind and value in context.

current_debug_location b returns the current debug location, or None if none is currently set.

Returns the data layout of this target machine.

data_layout ee is the data layout of the execution engine ee.

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.

declare_function name ty m returns a new function of type ty and with name name in module m.

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).

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.

Default MCJIT compiler options: { opt_level = 0; code_model = CodeModel.JIT_default; no_framepointer_elim = false; enable_fast_isel = false }

default_triple () returns the default target triple for current platform.

define_function name ty m creates a new function with name name and type ty in module m.

define_global name init m returns a new global with name name and initializer init in module m in the default address space (0).

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.

delete_block bb deletes the basic block bb.

delete_function f destroys the function f.

delete_global gv destroys the global variable gv.

delete_instruction i deletes the instruction i.

Returns the description of a target.

description d returns a textual description of d.

dispose ee releases the memory used by the execution engine and must be invoked to avoid memory leaks.

Frees the memory of a pass pipeline.

Disposes of a memory buffer.

destroy_context () destroys a context.

dispose_module m destroys a module m and all of the IR objects it contained.

dll_storage_class g returns the DLL storage class of the global value g.

double_type c returns the IEEE 64-bit floating point type in the context c.

dump_module m prints the .ll representation of the module m to standard error.

dump_type ty prints the .ll representation of the type ty to standard error.

dump_value v prints the .ll representation of the value v to standard error.

Computes the structure element that contains the byte offset for a target.

element_type ty returns the element type of the pointer, vector, or array type ty.

Emits assembly or object data for the given module to the given file or raise Error.

Emits assembly or object data for the given module to a fresh memory buffer or raise Error.

enable_pretty_stacktraces () enables LLVM's built-in stack trace code.

entry_block fn returns the entry basic block of the function f.

enum_attr_kind name returns the kind of enum attributes named name.

fast is the calling convention to allow LLVM maximum optimization opportunities.

fcmp_predicate i returns the fcmp.t corresponding to an fcmp instruction i.

Returns the feature string used while creating this target machine.

finalize fpm finalizes all of the function passes scheduled in the function pass manager fpm.

first () returns the first target in the registered targets list, or None.

float_of_const c returns the float value of the c constant float.

float_type c returns the IEEE 32-bit floating point type in the context c.

fold_left_blocks f init fn is f (... (f init b1) ...) bN where b1,...,bN are the basic blocks of function fn.

fold_left_function f init m is f (... (f init f1) ...) fN where f1,...,fN are the functions of module m.

fold_left_globals f init m is f (... (f init g1) ...) gN where g1,...,gN are the global variables of module m.

fold_left_instrs f init bb is f (... (f init g1) ...) gN where g1,...,gN are the instructions of basic block bb.

fold_left_params f init fn is f (... (f init b1) ...) bN where b1,...,bN are the parameters of function fn.

fold_left_uses f init v is f (... (f init u1) ...) uN where u1,...,uN are the users of the value v.

fold_right_blocks f fn init is f (... (f init bN) ...) b1 where b1,...,bN are the basic blocks of function fn.

fold_right_functions f m init is f (... (f init fN) ...) f1 where f1,...,fN are the functions of module m.

fold_right_globals f m init is f g1 (... (f gN init) ...) where g1,...,gN are the global variables of module m.

fold_right_instrs f bb init is f (... (f init fN) ...) f1 where f1,...,fN are the instructions of basic block bb.

fold_right_params f fn init is f (... (f init bN) ...) b1 where b1,...,bN are the parameters of function fn.

fold_right_uses f v init is f u1 (... (f uN init) ...) where u1,...,uN are the users of the value v.

fold_successors f v init is f (... (f init vN) ...) v1 where v1,...,vN are the successors of v.

fp128_type c returns the IEEE 128-bit floating point type in the context c.

function_attrs f i returns the attributes for the function f at position i.

function_begin m returns the first position in the function list of the module m.

function_call_conv f returns the calling convention of the function f.

function_end m returns the last position in the function list of the module m.

function_pred gv returns the function list position preceding After gv.

function_succ gv returns the function list position succeeding Before gv.

function_type ret_ty param_tys returns the function type returning ret_ty and taking param_tys as parameters.

gc f returns Some name if the function f has a garbage collection algorithm specified and None otherwise.

get_branch c returns a description of the branch instruction c.

get_function_address fn typ ee returns a pointer to the function fn as type typ, which will be a pointer type for a function (e.g.

get_global_value_address id typ ee returns a pointer to the identifier id as type typ, which will be a pointer type for a value, and which will be live as long as id and ee are.

get_mdnode_operands v returns the operands in the MDNode.

get_mdstring v returns the MDString.

get_module context mb reads the bitcode for a new module m from the memory buffer mb in the context context.

get_named_metadata m name returns all the MDNodes belonging to the named metadata (if any).

global_begin m returns the first position in the global variable list of the module m.

See the function LLVMGetGlobalContext.

global_end m returns the last position in the global variable list of the module m.

global_initializer gv returns the initializer for the global variable gv.

global_parent g is the enclosing module of the global value g.

global_pred gv returns the global variable list position preceding After gv.

global_succ gv returns the global variable list position succeeding Before gv.

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

Returns true if the target has a JIT.

has_metadata i returns whether or not the instruction i has any metadata attached to it.

Returns true if the target has a target machine associated.

i16_type c returns an integer type of bitwidth 16 in the context c.

i1_type c returns an integer type of bitwidth 1 in the context c.

i32_type c returns an integer type of bitwidth 32 in the context c.

i64_type c returns an integer type of bitwidth 64 in the context c.

i8_type c returns an integer type of bitwidth 8 in the context c.

icmp_predicate i returns the Icmp.t corresponding to an icmp instruction i.

incoming pn returns the list of value-block pairs for phi node pn.

initialize () initializes the backend corresponding to the host.

initialize fpm initializes all of the function passes scheduled in the function pass manager fpm.

insert_block c name bb creates a new basic block named name before the basic block bb in the context c.

insert_into_builder i name b inserts the specified instruction i at the position specified by the instruction builder b.

insertion_block b returns the basic block that the builder b is positioned to insert into.

install_fatal_error_handler f installs f as LLVM's fatal error handler.

instr_begin bb returns the first position in the instruction list of the basic block bb.

inst_clone i returns a copy of instruction i, The instruction has no parent, and no name.

instr_end bb returns the last position in the instruction list of the basic block bb.

inst_opcode i returns the Opcode.t corresponding to instruction i, or Opcode.Invalid if i is not an instruction.

instr_parent i is the enclosing basic block of the instruction i.

instr_pred i returns the instruction list position preceding After i.

instr_succ i returns the instruction list position succeeding Before i.

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.

int64_of_const c returns the int64 value of the c constant integer.

integer_bitwidth c ty returns the number of bits in the integer type ty in the context c.

integer_type c n returns an integer type of bitwidth n in the context c.

Returns the integer type that is the same size as a pointer on a target.

is_conditional v returns true if the branch instruction v is conditional.

is_constant v returns true if the value v is a constant, false otherwise.

is_declaration g returns true if the global value g is a declaration only.

is_externally_initialized gv returns true if the global variable gv is externally initialized and false otherwise.

is_global_constant gv returns true if the global variabile gv is a constant.

is_intrinsic f returns true if the function f is an intrinsic.

is_null v returns true if the value v is the null (zero) value.

is_opaque sty returns true if the structure type sty is opaque.

is_packed sty returns true if the structure type sty is packed, false otherwise.

is_tail_call ci is true if the call instruction ci is flagged as eligible for tail call optimization, false otherwise.

is_terminator v returns true if the instruction v is a terminator.

is_thread_local gv returns true if the global variable gv is thread-local and false otherwise.

is_undef v returns true if the value v is an undefined value, false otherwise.

is_var_arg fty returns true if fty is a varargs function type, false otherwise.

is_volatile i is true if the load or store instruction i is marked as volatile.

iter_blocks f fn applies function f to each of the basic blocks of function fn in order.

iter_functions f m applies function f to each of the functions of module m in order.

iter_globals f m applies function f to each of the global variables of module m in order.

iter_instrs f bb applies function f to each of the instructions of basic block bb in order.

iter_params f fn applies function f to each of the parameters of function fn in order.

iter_successors f v applies function f to each successor v in order.

iter_uses f v applies function f to each of the users of the value v in order.

label_type c creates a type of a basic block in the context c.

link_modules' dst src links src into dst, raising Error if the linking fails.

linkage g returns the linkage of the global value g.

lookup_function name m returns Some f if a function with name name exists in module m.

lookup_global name m returns Some g if a global variable with name name exists in module m.

mdkind_id context name returns the MDKind ID that corresponds to the name name in the context context.

mdnode c elts returns the MDNode containing the values elts in the context c.

mdnull c returns a null MDNode in context c.

mdstring c s returns the MDString of the string s in the context c.

metadata i kind optionally returns the metadata associated with the kind kind in the instruction i See the function llvm::Instruction::getMetadata.

module_context m returns the context of the specified module.

move_block_after pos bb moves the basic block bb after pos.

move_block_before pos bb moves the basic block bb before pos.

Returns the name of a target.

named_struct_type context name returns the named structure type name in the context context.

num_operands v returns the number of operands for the value v.

num_successors v returns the number of successors for the value v.

of_file p is the memory buffer containing the contents of the file at path p.

of_stdin () is the memory buffer containing the contents of standard input.

of_string rep parses the data layout string representation rep.

of_string ~name s is the memory buffer containing the contents of string s.

Computes the byte offset of the indexed struct element for a target.

operand v i returns the operand at index i for the value v.

operand_use v i returns the use of the operand at index i for the value v.

output_bitcode ~unbuffered c m writes the bitcode for module m to the channel c.

packed_struct_type context ys returns the packed structure type in the context context containing in the types in the array tys.

param f n returns the nth parameter of function f.

param_begin f returns the first position in the parameter list of the function f.

param_end f returns the last position in the parameter list of the function f.

param_parent p returns the parent function that owns the parameter.

param_pred gv returns the function list position preceding After gv.

param_succ bb returns the parameter list position succeeding Before bb.

param_types fty gets the parameter types of the function type fty.

params f returns the parameters of function f.

parse_bitcode context mb parses the bitcode for a new module m from the memory buffer mb in the context context.

parse_command_line_options ?overview args parses args using the LLVM command line parser.

parse_ir context mb parses the IR for a new module m from the memory buffer mb in the context context.

Returns the pointer size in bytes for a target.

pointer_type ty returns the pointer type referencing objects of type ty in the default address space (0).

See the llvm::PassManagerBuilder::populateFunctionPassManager function.

See the llvm::PassManagerBuilder::populateLTOPassManager function.

See the llvm::PassManagerBuilder::populateModulePassManager function.

position_at_end bb b moves the instruction builder b to the end of the basic block bb.

position_before ins b moves the instruction builder b to before the instruction isn.

position_builder ip bb moves the instruction builder bb to the position ip.

ppc_fp128_type c returns the PowerPC 128-bit floating point type in the context c.

Computes the preferred alignment of a type in bytes for a target.

Computes the preferred alignment of a global variable in bytes for a target.

print_module f m prints the .ll representation of the module m to file f.

Returns the integer type that is the same size as a pointer on a target in a given address space.

Returns the pointer size in bytes for a target in a given address space.

qualified_pointer_type ty as returns the pointer type referencing objects of type ty in address space as.

remove_block bb removes the basic block bb from its parent function.

remove_enum_call_site_attr f k i removes enum attribute with kind k from the call instruction ci at position i.

remove_enum_function_attr f k i removes enum attribute with kind k from the function f at position i.

remove_initializer gv unsets the initializer for the global variable gv.

remove_module m ee removes the module m from the execution engine ee.

remove_string_call_site_attr f k i removes string attribute with kind k from the call instruction ci at position i.

remove_string_function_attr f k i removes string attribute with kind k from the function f at position i.

replace_all_uses_with old new replaces all uses of the value old with the value new.

repr_of_attr attr describes the representation of attribute attr.

reset_fatal_error_handler () resets LLVM's fatal error handler.

return_type fty gets the return type of the function type fty.

rev_iter_blocks f fn applies function f to each of the basic blocks of function fn in reverse order.

rev_iter_functions f fn applies function f to each of the functions of module m in reverse order.

rev_iter_globals f m applies function f to each of the global variables of module m in reverse order.

rev_iter_params f fn applies function f to each of the parameters of function fn in reverse order.

run_function f fpm executes all of the function passes scheduled in the function pass manager fpm over the function f.

run_module m pm initializes, executes on the module m, and finalizes all of the passes scheduled in the pass manager pm.

run_static_ctors ee executes the static constructors of each module in the execution engine ee.

run_static_dtors ee executes the static destructors of each module in the execution engine ee.

section g returns the linker section of the global value g.

set_alignment n g sets the required alignment of the global value g to n bytes.

set_cleanup lp sets the cleanup flag in the landingpadinstruction.

set_condition v c sets the condition of the branch instruction v to the value c.

set_current_debug_location b md sets the current debug location md in the builder b.

set_data_layout s m changes the data layout specifier for the module m to the string s.

set_diagnostic_handler c h set the diagnostic handler of c to h.

See the llvm::PassManagerBuilder::DisableUnitAtATime function.

See the llvm::PassManagerBuilder::DisableUnrollLoops function.

set_dll_storage_class v g sets the DLL storage class of the global value g to v.

set_externally_initialized c gv sets the global variable gv to be externally initialized if c is true and not otherwise.

set_function_call_conv cc f sets the calling convention of the function f to the calling convention numbered cc.

set_gc gc f sets the collection algorithm for the function f to gc.

set_global_constant c gv sets the global variable gv to be a constant if c is true and not if c is false.

set_initializer c gv sets the initializer for the global variable gv to the constant c.

set_inst_debug_location b i sets the current debug location of the builder b to the instruction i.

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.

set_linkage l g sets the linkage of the global value g to l.

set_metadata i kind md sets the metadata md of kind kind in the instruction i.

set_module_inline_asm m asm sets the inline assembler for the module.

set_operand v i o sets the operand of the value v at the index i to the value o.

See the llvm::PassManagerBuilder::OptLevel function.

set_section s g sets the linker section of the global value g to s.

See the llvm::PassManagerBuilder::SizeLevel function.

set_successor v i o sets the successor of the value v at the index i to the value o.

set_tail_call tc ci flags the call instruction ci as eligible for tail call optimization if tc is true, clears otherwise.

target_triple triple m changes the target specifier for the module m to the string triple.

set_thread_local c gv sets the global variable gv to be thread local if c is true and not otherwise.

set_thread_local c gv sets the thread local mode of the global variable gv.

set_unnamed_addr b g if b is true, sets the unnamed_addr attribute of the global value g.

set_value_name n v sets the name of the value v to n.

Sets the assembly verbosity of this target machine.

set_visibility v g sets the linker visibility of the global value g to v.

set_volatile v i marks the load or store instruction i as volatile if v is true, unmarks otherwise.

severity d returns the severity of d.

Computes the size of a type in bits for a target.

size_of ty returns the sizeof constant for the type ty.

Computes the call frame alignment of a type in bytes for a target.

Computes the storage size of a type in bytes for a target.

string_of_const c returns Some str if c is a string constant, or None if this is not a string constant.

string_of_llmodule m returns the .ll representation of the module m as a string.

string_of_lltype ty returns a string describing the type ty.

string_of_llvalue v returns a string describing the value v.

struct_element_types sty returns the constituent types of the struct type sty.

struct_name ty returns the name of the named structure type ty, or None if the structure type is not named

struct_set_body ty elts ispacked sets the body of the named struct ty to the elts elements.

struct_type context tys returns the structure type in the context context containing in the types in the array tys.

subtypes ty returns ty's subtypes

succ t returns the next target after t, or None if t was the last target.

successor v i returns the successor at index i for the value v.

successors v returns the successors of v.

switch_default_dest sw returns the default destination of the switch instruction.

Returns the Target used in a TargetMachine

target_triple m is the target specifier for the module m, something like i686-apple-darwin8.

is_thread_local gv returns the thread local mode of the global variable gv.

Returns the triple used while creating this target machine.

type_by_name m name returns the specified type from the current module if it exists.

type_context ty returns the Llvm.llcontext corresponding to the type ty.

type_is_sized ty returns whether the type has a size or not.

type_of v returns the type of the value v.

undef ty returns the undefined value of the type ty.

unnamed_addr g returns true if the global value g has the unnamed_addr attribute.

use_begin v returns the first position in the use list for the value v.

See the llvm::PassManagerBuilder::Inliner function.

use_succ u returns the use list position succeeding u.

used_value u returns the usee of the use u.

user u returns the user of the use u.

value_is_block v returns true if the value v is a basic block and false otherwise.

value_name v returns the name of the value v.

value_of_block bb losslessly casts bb to an llvalue.

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.

element_type ty returns the element count of the vector type ty.

vector_type ty n returns the array type containing n elements of the primitive type ty.

verify_function f returns None if the function f is valid, and Some reason if it is invalid.

verify_module m returns None if the module m is valid, and Some reason if it is invalid.

view_function_cfg f opens up a ghostscript window displaying the CFG of the current function with the code for each basic block inside.

view_function_cfg_only f works just like view_function_cfg, but does not include the contents of basic blocks into the nodes.

visibility g returns the linker visibility of the global value g.

void_type c creates a type of a function which does not return any value in the context c.

write_bitcode_file m path writes the bitcode for module m to the file at path.

write_bitcode_to_fd ~unbuffered fd m writes the bitcode for module m to the channel c.

write_bitcode_to_memory_buffer m returns a memory buffer containing the bitcode for module m.

x86_fastcall is the familiar fastcall calling convention from C.

x86_mmx_type c returns the x86 64-bit MMX register type in the context c.

x86_stdcall is the familiar stdcall calling convention from C.

x86fp80_type c returns the x87 80-bit floating point type in the context c.