Class: LLVM::Builder

Inherits:

Object

• Object
• LLVM::Builder

Defined in:

lib/llvm/core/builder.rb

Instance Method Summary

• #add(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Integer addition.

• #aggregate_ret(*vals) ⇒ LLVM::Instruction

  Builds a ret instruction returning multiple values.

• #alloca(ty, name = "") ⇒ LLVM::Instruction

  Stack allocation.

• #and(lhs, rhs, name = "") ⇒ LLVM::Instruction

  An integer instruction.

• #array_alloca(ty, sz, name = "") ⇒ LLVM::Instruction

  Array stack allocation.

• #array_malloc(ty, sz, name = "") ⇒ LLVM::Instruction

  A pointer to the malloced array.

• #ashr(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Arithmatic shift right.

• #bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

  Cast a value to the given type without changing any bits.

• #br(block) ⇒ LLVM::Instruction

  Unconditional branching (i.e. goto).

• #call(fun, *args) ⇒ Object

  Builds a call Instruction.

• #call2(type, fun, *args) ⇒ Object
• #cond(cond, iftrue, iffalse) ⇒ LLVM::Instruction

  Conditional branching (i.e. if).

• #dispose ⇒ Object
• #exact_sdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Signed exact division.

• #extract_element(vector, idx, name = "") ⇒ LLVM::Instruction

  Extract an element from a vector.

• #extract_value(aggregate, idx, name = "") ⇒ LLVM::Instruction

  Extract the value of a member field from an aggregate value.

• #fadd(lhs, rhs, name = "") ⇒ LLVM::Instruction

  The floating point sum of the two operands.

• #fcmp(pred, lhs, rhs, name = "") ⇒ LLVM::Instruction

  Builds an fcmp Instruction.

• #fdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

  The floating point quotient of the two operands.

• #fmul(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Floating point multiplication.

• #fneg(lhs, name = "") ⇒ LLVM::Instruction

  The ‘fneg’ instruction returns the negation of its operand.

• #fp2si(val, ty, name = "") ⇒ LLVM::Instruction

  Convert a floating point to a signed integer.

• #fp2ui(val, ty, name = "") ⇒ LLVM::Instruction

  Convert a floating point to an unsigned integer.

• #fp_cast(val, ty, name = "") ⇒ LLVM::Instruction
• #fp_ext(val, ty, name = "") ⇒ LLVM::Instruction

  Extend a floating point value.

• #fp_trunc(val, ty, name = "") ⇒ LLVM::Instruction

  Truncate a floating point value.

• #free(ptr) ⇒ LLVM::Instruction

  The result of the free instruction.

• #frem(lhs, rhs, name = "") ⇒ LLVM::Instruction

  The floating point remainder.

• #fsub(lhs, rhs, name = "") ⇒ LLVM::Instruction

  The floating point difference of the two operands.

• #gep(ptr, indices, name = "") ⇒ LLVM::Instruction

  Obtain a pointer to the element at the given indices may return Instruction or GlobalVariable.

• #gep2(type, ptr, indices, name) ⇒ LLVM::Instruction

  Obtain a pointer to the element at the given indices may return Instruction or GlobalVariable.

• #global_string(string, name = "") ⇒ LLVM::Instruction

  Creates a global string initialized to a given value.

• #global_string_pointer(string, name = "") ⇒ LLVM::Instruction

  Creates a pointer to a global string initialized to a given value.

• #ibr(addr, num_dests) ⇒ LLVM::Instruction

  Indirect branching (i.e. computed goto).

• #icmp(pred, lhs, rhs, name = "") ⇒ LLVM::Instruction

  Builds an icmp Instruction.

• #inbounds_gep(ptr, indices, name = "") ⇒ LLVM::Instruction

  Builds a inbounds getelementptr instruction.

• #inbounds_gep2(type, ptr, indices, name = "") ⇒ Object
• #initialize ⇒ Builder constructor

  Important: Call #dispose to free backend memory after use.

• #insert_block ⇒ LLVM::BasicBlock

  The BasicBlock at which the Builder is currently positioned.

• #insert_element(vector, elem, idx, name = "") ⇒ LLVM::Instruction

  Insert an element into a vector.

• #insert_value(aggregate, elem, idx, name = "") ⇒ LLVM::Instruction

  Insert a value into an aggregate value’s member field.

• #int2ptr(val, ty, name = "") ⇒ LLVM::Instruction

  Cast an int to a pointer.

• #int_cast(val, ty, name = "") ⇒ LLVM::Instruction
• #invoke(fun, args, normal, exception, name = "") ⇒ LLVM::Instruction

  Invoke a function which may potentially unwind.

• #invoke2(type, fun, args, normal, exception, name = "") ⇒ Object
• #is_not_null(val, name = "") ⇒ LLVM::Instruction

  Check if a value is not null.

• #is_null(val, name = "") ⇒ LLVM::Instruction

  Check if a value is null.

• #load(ptr, name = "") ⇒ LLVM::Instruction

  Load the value of a given pointer.

• #load2(type, ptr, name = "") ⇒ Object
• #lshr(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Shifts right with zero fill.

• #malloc(ty, name = "") ⇒ LLVM::Instruction

  A pointer to the malloced bytes.

• #mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Integer multiplication.

• #neg(arg, name = "") ⇒ LLVM::Instruction

  Integer negation.

• #not(arg, name = "") ⇒ LLVM::Instruction

  Boolean negation.

• #nsw_add(lhs, rhs, name = "") ⇒ LLVM::Instruction

  “No signed wrap” integer addition.

• #nsw_mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

  “No signed wrap” integer multiplication.

• #nsw_neg(arg, name = "") ⇒ LLVM::Instruction

  “No signed wrap” integer negation.

• #nsw_sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

  No signed wrap integer subtraction.

• #nuw_add(lhs, rhs, name = "") ⇒ LLVM::Instruction

  “No unsigned wrap” integer addition.

• #nuw_mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

  “No unsigned wrap” integer multiplication.

• #nuw_neg(arg, name = "") ⇒ LLVM::Instruction

  “No unsigned wrap” integer negation.

• #nuw_sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

  No unsigned wrap integer subtraction.

• #or(lhs, rhs, name = "") ⇒ LLVM::Instruction

  An integer instruction.

• #phi(ty, incoming, name = "") ⇒ LLVM::Instruction

  Build a Phi node of the given type with the given incoming branches.

• #pointer_cast(val, ty, name = "") ⇒ LLVM::Instruction
• #position(block, instruction) ⇒ LLVM::Builder

  Position the builder at the given Instruction within the given BasicBlock.

• #position_at_end(block) ⇒ LLVM::Builder

  Positions the builder at the end of the given BasicBlock.

• #position_before(instruction) ⇒ LLVM::Builder

  Positions the builder before the given Instruction.

• #ptr2int(val, ty, name = "") ⇒ LLVM::Instruction

  Cast a pointer to an int.

• #ptr_diff(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Calculate the difference between two pointers.

• #ret(val = nil) ⇒ LLVM::Instruction
• #ret_void ⇒ LLVM::Instruction
• #sdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Signed division.

• #select(_if, _then, _else, name = "") ⇒ LLVM::Instruction

  Return a value based on a condition.

• #sext(val, ty, name = "") ⇒ LLVM::Instruction

  Sign extension by copying the sign bit (highest order bit) of the value until it reaches the bit size of the given type.

• #sext_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction
• #shl(lhs, rhs, name = "") ⇒ LLVM::Instruction

  An integer instruction.

• #shuffle_vector(vec1, vec2, mask, name = "") ⇒ LLVM::Instruction

  Shuffle two vectors according to a given mask.

• #si2fp(val, ty, name = "") ⇒ LLVM::Instruction

  Convert a signed integer to a floating point.

• #srem(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Signed remainder.

• #store(val, ptr) ⇒ LLVM::Instruction

  Store a value at a given pointer.

• #struct_gep(ptr, idx, name = "") ⇒ LLVM::Instruction

  Builds a struct getelementptr Instruction.

• #struct_gep2(type, ptr, idx, name) ⇒ Object
• #sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Integer subtraction.

• #switch(val, default, cases) ⇒ LLVM::Instruction
• #to_ptr ⇒ Object
• #trunc(val, ty, name = "") ⇒ LLVM::Instruction

  Truncates its operand to the given type.

• #trunc_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction
• #udiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Unsigned integer division.

• #ui2fp(val, ty, name = "") ⇒ LLVM::Instruction

  Convert an unsigned integer to a floating point.

• #unreachable ⇒ LLVM::Instruction

  Generates an instruction with no defined semantics.

• #unwind ⇒ Object

  Builds an unwind Instruction.

• #urem(lhs, rhs, name = "") ⇒ LLVM::Instruction

  Unsigned remainder.

• #xor(lhs, rhs, name = "") ⇒ LLVM::Instruction

  An integer instruction.

• #zext(val, ty, name = "") ⇒ LLVM::Instruction

  Zero extends its operand to the given type.

• #zext_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

Constructor Details

#initialize ⇒ Builder

Important: Call #dispose to free backend memory after use.

# File 'lib/llvm/core/builder.rb', line 6

def initialize
  @ptr = C.create_builder()
end

Instance Method Details

#add(lhs, rhs, name = "") ⇒ LLVM::Instruction

Integer addition.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer sum of the two operands

# File 'lib/llvm/core/builder.rb', line 209

def add(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_add(self, lhs, rhs, name))
end

#aggregate_ret(*vals) ⇒ LLVM::Instruction

Builds a ret instruction returning multiple values.

Parameters:

• vals (Array<LLVM::Value>)

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 85

def aggregate_ret(*vals)
  FFI::MemoryPointer.new(FFI.type_size(:pointer) * vals.size) do |vals_ptr|
    vals_ptr.write_array_of_pointer(vals)
    Instruction.from_ptr(C.build_aggregate_ret(self, vals_ptr, vals.size))
  end
end

#alloca(ty, name = "") ⇒ LLVM::Instruction

Stack allocation.

Parameters:

• ty (LLVM::Type, #type) —

  The type or value whose type should be allocad

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A pointer to the allocad bytes

# File 'lib/llvm/core/builder.rb', line 517

def alloca(ty, name = "")
  Instruction.from_ptr(C.build_alloca(self, LLVM::Type(ty), name))
end

#and(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns An integer instruction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 436

def and(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_and(self, lhs, rhs, name))
end

#array_alloca(ty, sz, name = "") ⇒ LLVM::Instruction

Array stack allocation

Parameters:

• ty (LLVM::Type, #type) —

  The type or value whose type will be the element type of the allocad array

• sz (LLVM::Value) —

  Unsigned integer representing size of the array

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A pointer to the allocad array

# File 'lib/llvm/core/builder.rb', line 528

def array_alloca(ty, sz, name = "")
  Instruction.from_ptr(C.build_array_alloca(self, LLVM::Type(ty), sz, name))
end

#array_malloc(ty, sz, name = "") ⇒ LLVM::Instruction

Returns A pointer to the malloced array.

Parameters:

• ty (LLVM::Type, #type) —

  The type or value whose type will be the element type of the malloced array

• sz (LLVM::Value) —

  Unsigned integer representing size of the array

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A pointer to the malloced array

# File 'lib/llvm/core/builder.rb', line 507

def array_malloc(ty, sz, name = "")
  Instruction.from_ptr(C.build_array_malloc(self, LLVM::Type(ty), sz, name))
end

#ashr(lhs, rhs, name = "") ⇒ LLVM::Instruction

Arithmatic shift right.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 427

def ashr(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_a_shr(self, lhs, rhs, name))
end

#bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

Cast a value to the given type without changing any bits

Parameters:

• val (LLVM::Value) —

  The value to cast

• ty (LLVM::Type, #ty) —

  The target type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A value of the target type

# File 'lib/llvm/core/builder.rb', line 803

def bit_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_bit_cast(self, val, LLVM::Type(ty), name))
end

#br(block) ⇒ LLVM::Instruction

Unconditional branching (i.e. goto)

Parameters:

• block (LLVM::BasicBlock) —

  Where to jump

Returns:

• (LLVM::Instruction)

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 96

def br(block)
  raise ArgumentError, "Trying to build LLVM br with non-block: #{block.inspect}" if !block.is_a?(LLVM::BasicBlock)

  Instruction.from_ptr(
    C.build_br(self, block))
end

#call(fun, *args) ⇒ Object

Builds a call Instruction. Calls the given Function with the given args (Instructions).

Parameters:

• fun (LLVM::Function)
• args (Array<LLVM::Value>)
• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 937

def call(fun, *args)
  call2(nil, fun, *args)
end

#call2(type, fun, *args) ⇒ Object

# File 'lib/llvm/core/builder.rb', line 956

def call2(type, fun, *args)
  type, fun = call2_infer_function_and_type(type, fun)

  name = if args.last.kind_of? String
    args.pop
  else
    ""
  end

  args_ptr = FFI::MemoryPointer.new(FFI.type_size(:pointer) * args.size)
  args_ptr.write_array_of_pointer(args)
  ins = C.build_call2(self, type, fun, args_ptr, args.size, name)

  call_inst = CallInst.from_ptr(ins)

  if fun.is_a?(Function)
    call_inst.call_conv = fun.call_conv
  end

  call_inst
end

#cond(cond, iftrue, iffalse) ⇒ LLVM::Instruction

Conditional branching (i.e. if)

Parameters:

• cond (LLVM::Value) —

  The condition

• iftrue (LLVM::BasicBlock) —

  Where to jump if condition is true

• iffalse (LLVM::BasicBlock) —

  Where to jump if condition is false

Returns:

• (LLVM::Instruction)

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 119

def cond(cond, iftrue, iffalse)
  raise ArgumentError, "Trying to build LLVM cond br with non-block (true branch): #{iftrue.inspect}" if !iftrue.is_a?(LLVM::BasicBlock)

  raise ArgumentError, "Trying to build LLVM cond br with non-block (false branch): #{iffalse.inspect}" if !iffalse.is_a?(LLVM::BasicBlock)

  cond2 = cond_condition(cond)

  Instruction.from_ptr(
    C.build_cond_br(self, cond2, iftrue, iffalse))
end

#dispose ⇒ Object

# File 'lib/llvm/core/builder.rb', line 10

def dispose
  return if @ptr.nil?
  C.dispose_builder(@ptr)
  @ptr = nil
end

#exact_sdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

Signed exact division

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer quotient of the two operands

# File 'lib/llvm/core/builder.rb', line 349

def exact_sdiv(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_exact_s_div(self, lhs, rhs, name))
end

#extract_element(vector, idx, name = "") ⇒ LLVM::Instruction

Extract an element from a vector

Parameters:

• vector (LLVM::Value) —

  The vector from which to extract a value

• idx (LLVM::Value) —

  The index of the element to extract, an unsigned integer

• name (String) (defaults to: "") —

  The value of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The extracted element

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 1000

def extract_element(vector, idx, name = "")
  error = element_error(vector, idx)

  raise ArgumentError, "Error building extract_element with #{error}" if error

  ins = C.build_extract_element(self, vector, idx, name)
  Instruction.from_ptr(ins)
end

#extract_value(aggregate, idx, name = "") ⇒ LLVM::Instruction

Extract the value of a member field from an aggregate value

Parameters:

• aggregate (LLVM::Value) —

  An aggregate value

• idx (Integer) —

  The index of the member to extract

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The extracted value

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 1047

def extract_value(aggregate, idx, name = "")
  error = value_error(aggregate, idx)

  raise ArgumentError, "Error building extract_value with #{error}" if error

  ins = C.build_extract_value(self, aggregate, idx, name)
  Instruction.from_ptr(ins)
end

#fadd(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns The floating point sum of the two operands.

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• rhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point sum of the two operands

# File 'lib/llvm/core/builder.rb', line 238

def fadd(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_add(self, lhs, rhs, name))
end

#fcmp(pred, lhs, rhs, name = "") ⇒ LLVM::Instruction

Builds an fcmp Instruction. Compares lhs to rhs (Instructions) as Reals using the given symbol predicate (pred):

:ord   - ordered
:uno   - unordered: isnan(X) | isnan(Y)
:oeq   - ordered and equal to
:oeq   - unordered and equal to
:one   - ordered and not equal to
:one   - unordered and not equal to
:ogt   - ordered and greater than
:uge   - unordered and greater than or equal to
:olt   - ordered and less than
:ule   - unordered and less than or equal to
:oge   - ordered and greater than or equal to
:sge   - unordered and greater than or equal to
:ole   - ordered and less than or equal to
:sle   - unordered and less than or equal to
:true  - always true and folded
:false - always false and folded

Parameters:

• pred (Symbol) —

  A predicate

• lhs (LLVM::Value) —

  The left hand side of the comparison, of floating point type

• rhs (LLVM::Value) —

  The right hand side of the comparison, of the same type as lhs

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A boolean represented as i1

# File 'lib/llvm/core/builder.rb', line 911

def fcmp(pred, lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_cmp(self, pred, lhs, rhs, name))
end

#fdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns The floating point quotient of the two operands.

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• rhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point quotient of the two operands

# File 'lib/llvm/core/builder.rb', line 359

def fdiv(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_div(self, lhs, rhs, name))
end

#fmul(lhs, rhs, name = "") ⇒ LLVM::Instruction

Floating point multiplication

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• rhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point product of the two operands

# File 'lib/llvm/core/builder.rb', line 319

def fmul(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_mul(self, lhs, rhs, name))
end

#fneg(lhs, name = "") ⇒ LLVM::Instruction

The ‘fneg’ instruction returns the negation of its operand. llvm.org/docs/LangRef.html#fneg-instruction

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point negation

# File 'lib/llvm/core/builder.rb', line 398

def fneg(lhs, name = "")
  Instruction.from_ptr(C.build_f_neg(self, lhs, name))
end

#fp2si(val, ty, name = "") ⇒ LLVM::Instruction

Convert a floating point to a signed integer

Parameters:

• val (LLVM::Value) —

  Floating point or vector of floating points to convert

• ty (LLVM::Type, #type) —

  Integer or vector of integer target type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The converted value

# File 'lib/llvm/core/builder.rb', line 725

def fp2si(val, ty, name = "")
  Instruction.from_ptr(C.build_fp_to_si(self, val, LLVM::Type(ty), name))
end

#fp2ui(val, ty, name = "") ⇒ LLVM::Instruction

Convert a floating point to an unsigned integer

Parameters:

• val (LLVM::Value) —

  Floating point or vector of floating points to convert

• ty (LLVM::Type, #type) —

  Integer or vector of integer target type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The converted value

# File 'lib/llvm/core/builder.rb', line 714

def fp2ui(val, ty, name = "")
  Instruction.from_ptr(C.build_fp_to_ui(self, val, LLVM::Type(ty), name))
end

#fp_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 857

def fp_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_fp_cast(self, val, LLVM::Type(ty), name))
end

#fp_ext(val, ty, name = "") ⇒ LLVM::Instruction

Extend a floating point value

Parameters:

• val (LLVM::Value) —

  Floating point or vector of floating point

• ty (LLVM::Type, #type) —

  Floating point or vector of floating point type of greater size than val’s type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The extended value

# File 'lib/llvm/core/builder.rb', line 771

def fp_ext(val, ty, name = "")
  Instruction.from_ptr(C.build_fp_ext(self, val, LLVM::Type(ty), name))
end

#fp_trunc(val, ty, name = "") ⇒ LLVM::Instruction

Truncate a floating point value

Parameters:

• val (LLVM::Value) —

  Floating point or vector of floating point

• ty (LLVM::Type, #type) —

  Floating point or vector of floating point type of lesser size than val’s type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The truncated value

# File 'lib/llvm/core/builder.rb', line 760

def fp_trunc(val, ty, name = "")
  Instruction.from_ptr(C.build_fp_trunc(self, val, LLVM::Type(ty), name))
end

#free(ptr) ⇒ LLVM::Instruction

Returns The result of the free instruction.

Parameters:

• ptr (LLVM::Value) —

  The pointer to be freed

Returns:

• (LLVM::Instruction) —

  The result of the free instruction

# File 'lib/llvm/core/builder.rb', line 534

def free(ptr)
  Instruction.from_ptr(C.build_free(self, ptr))
end

#frem(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns The floating point remainder.

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• rhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point remainder

# File 'lib/llvm/core/builder.rb', line 388

def frem(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_rem(self, lhs, rhs, name))
end

#fsub(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns The floating point difference of the two operands.

Parameters:

• lhs (LLVM::Value) —

  Floating point or vector of floating points

• rhs (LLVM::Value) —

  Floating point or vector of floating points

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The floating point difference of the two operands

# File 'lib/llvm/core/builder.rb', line 278

def fsub(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_f_sub(self, lhs, rhs, name))
end

#gep(ptr, indices, name = "") ⇒ LLVM::Instruction

Obtain a pointer to the element at the given indices may return Instruction or GlobalVariable

Parameters:

• ptr (LLVM::Value) —

  A pointer to an aggregate value

• indices (Array<LLVM::Value>) —

  Ruby array of LLVM::Value representing indices into the aggregate

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The resulting pointer

See Also:

• http://llvm.org/docs/GetElementPtr.html

# File 'lib/llvm/core/builder.rb', line 577

def gep(ptr, indices, name = "")
  gep2(nil, ptr, indices, name)
end

#gep2(type, ptr, indices, name) ⇒ LLVM::Instruction

Obtain a pointer to the element at the given indices may return Instruction or GlobalVariable

Parameters:

• type (LLVM::Type) —

  An LLVM::Type

• ptr (LLVM::Value) —

  A pointer to an aggregate value

• indices (Array<LLVM::Value>) —

  Ruby array of LLVM::Value representing indices into the aggregate

• name (String) —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The resulting pointer

See Also:

• http://llvm.org/docs/GetElementPtr.html

# File 'lib/llvm/core/builder.rb', line 591

def gep2(type, ptr, indices, name)
  must_be_value!(ptr)

  type ||= must_infer_type!(ptr)
  must_be_type!(type)

  indices = Array(indices)
  FFI::MemoryPointer.new(FFI.type_size(:pointer) * indices.size) do |indices_ptr|
    indices_ptr.write_array_of_pointer(indices)
    ins = C.build_gep2(self, type, ptr, indices_ptr, indices.size, name)
    return Instruction.from_ptr(ins)
  end
end

#global_string(string, name = "") ⇒ LLVM::Instruction

Creates a global string initialized to a given value.

Parameters:

• string (String) —

  The string used by the initialize

• name (Name) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  Reference to the global string

# File 'lib/llvm/core/builder.rb', line 659

def global_string(string, name = "")
  Instruction.from_ptr(C.build_global_string(self, string, name))
end

#global_string_pointer(string, name = "") ⇒ LLVM::Instruction

Creates a pointer to a global string initialized to a given value.

Parameters:

• string (String) —

  The string used by the initializer

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  Reference to the global string pointer

# File 'lib/llvm/core/builder.rb', line 667

def global_string_pointer(string, name = "")
  Instruction.from_ptr(C.build_global_string_ptr(self, string, name))
end

#ibr(addr, num_dests) ⇒ LLVM::Instruction

Indirect branching (i.e. computed goto)

Parameters:

• addr (LLVM::BasicBlock) —

  Where to jump

• num_dests (Integer) —

  Number of possible destinations to be added

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 108

def ibr(addr, num_dests)
  IndirectBr.from_ptr(
    C.build_indirect_br(self, addr, num_dests))
end

#icmp(pred, lhs, rhs, name = "") ⇒ LLVM::Instruction

Builds an icmp Instruction. Compares lhs to rhs (Instructions) using the given symbol predicate (pred):

:eq  - equal to
:ne  - not equal to
:ugt - unsigned greater than
:uge - unsigned greater than or equal to
:ult - unsigned less than
:ule - unsigned less than or equal to
:sgt - signed greater than
:sge - signed greater than or equal to
:slt - signed less than
:sle - signed less than or equal to

Parameters:

• pred (Symbol) —

  A predicate

• lhs (LLVM::Value) —

  The left hand side of the comparison, of integer or pointer type

• rhs (LLVM::Value) —

  The right hand side of the comparison, of the same type as lhs

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A boolean represented as i1

# File 'lib/llvm/core/builder.rb', line 881

def icmp(pred, lhs, rhs, name = "")
  Instruction.from_ptr(C.build_i_cmp(self, pred, lhs, rhs, name))
end

#inbounds_gep(ptr, indices, name = "") ⇒ LLVM::Instruction

Builds a inbounds getelementptr instruction. If the indices are outside the allocated pointer the value is undefined.

Parameters:

• ptr (LLVM::Value) —

  A pointer to an aggregate value

• indices (Array<LLVM::Value>) —

  Ruby array of LLVM::Value representing indices into the aggregate

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The resulting pointer

See Also:

• http://llvm.org/docs/GetElementPtr.html

# File 'lib/llvm/core/builder.rb', line 614

def inbounds_gep(ptr, indices, name = "")
  inbounds_gep2(nil, ptr, indices, name)
end

#inbounds_gep2(type, ptr, indices, name = "") ⇒ Object

# File 'lib/llvm/core/builder.rb', line 618

def inbounds_gep2(type, ptr, indices, name = "")
  must_be_value!(ptr)

  type = must_infer_type!(ptr)
  must_be_type!(type)

  indices = Array(indices)
  FFI::MemoryPointer.new(FFI.type_size(:pointer) * indices.size) do |indices_ptr|
    indices_ptr.write_array_of_pointer(indices)
    ins = C.build_inbounds_gep2(self, type, ptr, indices_ptr, indices.size, name)
    return Instruction.from_ptr(ins)
  end
end

#insert_block ⇒ LLVM::BasicBlock

The BasicBlock at which the Builder is currently positioned.

Returns:

• (LLVM::BasicBlock)

# File 'lib/llvm/core/builder.rb', line 60

def insert_block
  BasicBlock.from_ptr(C.get_insert_block(self))
end

#insert_element(vector, elem, idx, name = "") ⇒ LLVM::Instruction

Insert an element into a vector

Parameters:

• vector (LLVM::Value) —

  The vector into which to insert the element

• elem (LLVM::Value) —

  The element to be inserted into the vector

• idx (LLVM::Value) —

  The index at which to insert the element

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A vector the same type as ‘vector’

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 1016

def insert_element(vector, elem, idx, name = "")
  error = element_error(vector, idx)

  error ||= if !elem.is_a?(LLVM::Value)
    "elem: #{elem.inspect}"
  end

  raise ArgumentError, "Error building insert_element with #{error}" if error

  ins = C.build_insert_element(self, vector, elem, idx, name)
  Instruction.from_ptr(ins)
end

#insert_value(aggregate, elem, idx, name = "") ⇒ LLVM::Instruction

Insert a value into an aggregate value’s member field

Parameters:

• aggregate (LLVM::Value) —

  An aggregate value

• elem (LLVM::Value) —

  The value to insert into ‘aggregate’

• idx (Integer) —

  The index at which to insert the value

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An aggregate value of the same type as ‘aggregate’

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 1063

def insert_value(aggregate, elem, idx, name = "")
  error = value_error(aggregate, idx)

  error ||= if !elem.is_a?(LLVM::Value)
    "elem: #{elem.inspect}"
  end

  raise ArgumentError, "Error building insert_value with #{error}" if error

  ins = C.build_insert_value(self, aggregate, elem, idx, name)
  Instruction.from_ptr(ins)
end

#int2ptr(val, ty, name = "") ⇒ LLVM::Instruction

Cast an int to a pointer

Parameters:

• val (LLVM::Value) —

  An integer value

• ty (LLVM::Type, #ty) —

  A pointer type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A pointer of the given type and the address held in val

# File 'lib/llvm/core/builder.rb', line 793

def int2ptr(val, ty, name = "")
  Instruction.from_ptr(C.build_int_to_ptr(self, val, LLVM::Type(ty), name))
end

#int_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 849

def int_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_int_cast(self, val, LLVM::Type(ty), name))
end

#invoke(fun, args, normal, exception, name = "") ⇒ LLVM::Instruction

Invoke a function which may potentially unwind

Parameters:

• fun (LLVM::Function) —

  The function to invoke

• args (Array<LLVM::Value>) —

  Arguments passed to fun

• normal (LLVM::BasicBlock) —

  Where to jump if fun does not unwind

• exception (LLVM::BasicBlock) —

  Where to jump if fun unwinds

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The value returned by ‘fun’, unless an unwind instruction occurs

# File 'lib/llvm/core/builder.rb', line 171

def invoke(fun, args, normal, exception, name = "")
  invoke2(nil, fun, args, normal, exception, name)
end

#invoke2(type, fun, args, normal, exception, name = "") ⇒ Object

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 175

def invoke2(type, fun, args, normal, exception, name = "")
  raise ArgumentError, "Trying to build LLVM call with non-function: #{fun.inspect}" if !fun.is_a?(LLVM::Function)

  type ||= fun.return_type
  must_be_type!(type)

  s = args.size
  FFI::MemoryPointer.new(FFI.type_size(:pointer) * s) do |args_ptr|
    args_ptr.write_array_of_pointer(args)
    ins = C.build_invoke2(self, type, fun, args_ptr, s, normal, exception, name)
    return Instruction.from_ptr(ins)
  end
end

#is_not_null(val, name = "") ⇒ LLVM::Instruction

Check if a value is not null

Parameters:

• val (LLVM::Value) —

  The value to check

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An i1

# File 'lib/llvm/core/builder.rb', line 1088

def is_not_null(val, name = "")
  Instruction.from_ptr(C.build_is_not_null(self, val, name))
end

#is_null(val, name = "") ⇒ LLVM::Instruction

Check if a value is null

Parameters:

• val (LLVM::Value) —

  The value to check

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An i1

# File 'lib/llvm/core/builder.rb', line 1080

def is_null(val, name = "")
  Instruction.from_ptr(C.build_is_null(self, val, name))
end

#load(ptr, name = "") ⇒ LLVM::Instruction

Load the value of a given pointer

Parameters:

• ptr (LLVM::Value) —

  The pointer to be loaded

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The result of the load operation. Represents a value of the pointer’s type.

# File 'lib/llvm/core/builder.rb', line 544

def load(ptr, name = "")
  load2(nil, ptr, name)
end

#load2(type, ptr, name = "") ⇒ Object

# File 'lib/llvm/core/builder.rb', line 548

def load2(type, ptr, name = "")
  must_be_value!(ptr)

  type ||= infer_type(ptr)
  must_be_type!(type)

  load = C.build_load2(self, type, ptr, name)
  Instruction.from_ptr(load)
end

#lshr(lhs, rhs, name = "") ⇒ LLVM::Instruction

Shifts right with zero fill.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 417

def lshr(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_l_shr(self, lhs, rhs, name))
end

#malloc(ty, name = "") ⇒ LLVM::Instruction

Returns A pointer to the malloced bytes.

Parameters:

• ty (LLVM::Type, #type) —

  The type or value whose type should be malloced

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  A pointer to the malloced bytes

# File 'lib/llvm/core/builder.rb', line 498

def malloc(ty, name = "")
  Instruction.from_ptr(C.build_malloc(self, LLVM::Type(ty), name))
end

#mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

Integer multiplication.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer product of the two operands

# File 'lib/llvm/core/builder.rb', line 288

def mul(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_mul(self, lhs, rhs, name))
end

#neg(arg, name = "") ⇒ LLVM::Instruction

Integer negation. Implemented as a shortcut to the equivalent sub

instruction.

Parameters:

• arg (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The negated operand

# File 'lib/llvm/core/builder.rb', line 464

def neg(arg, name = "")
  Instruction.from_ptr(C.build_neg(self, arg, name))
end

#not(arg, name = "") ⇒ LLVM::Instruction

Boolean negation.

Parameters:

• arg (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The negated operand

# File 'lib/llvm/core/builder.rb', line 490

def not(arg, name = "")
  Instruction.from_ptr(C.build_not(self, arg, name))
end

#nsw_add(lhs, rhs, name = "") ⇒ LLVM::Instruction

“No signed wrap” integer addition.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer sum of the two operands

# File 'lib/llvm/core/builder.rb', line 219

def nsw_add(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nsw_add(self, lhs, rhs, name))
end

#nsw_mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

“No signed wrap” integer multiplication.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer product of the two operands

# File 'lib/llvm/core/builder.rb', line 298

def nsw_mul(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nsw_mul(self, lhs, rhs, name))
end

#nsw_neg(arg, name = "") ⇒ LLVM::Instruction

“No signed wrap” integer negation.

Parameters:

• arg (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The negated operand

# File 'lib/llvm/core/builder.rb', line 473

def nsw_neg(arg, name = "")
  Instruction.from_ptr(C.build_nsw_neg(self, arg, name))
end

#nsw_sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

No signed wrap integer subtraction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer difference of the two operands

# File 'lib/llvm/core/builder.rb', line 258

def nsw_sub(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nsw_sub(self, lhs, rhs, name))
end

#nuw_add(lhs, rhs, name = "") ⇒ LLVM::Instruction

“No unsigned wrap” integer addition.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer sum of the two operands

# File 'lib/llvm/core/builder.rb', line 229

def nuw_add(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nuw_add(self, lhs, rhs, name))
end

#nuw_mul(lhs, rhs, name = "") ⇒ LLVM::Instruction

“No unsigned wrap” integer multiplication.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer product of the two operands

# File 'lib/llvm/core/builder.rb', line 308

def nuw_mul(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nuw_mul(self, lhs, rhs, name))
end

#nuw_neg(arg, name = "") ⇒ LLVM::Instruction

“No unsigned wrap” integer negation.

Parameters:

• arg (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The negated operand

# File 'lib/llvm/core/builder.rb', line 482

def nuw_neg(arg, name = "")
  Instruction.from_ptr(C.build_nuw_neg(self, arg, name))
end

#nuw_sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

No unsigned wrap integer subtraction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer difference of the two operands

# File 'lib/llvm/core/builder.rb', line 268

def nuw_sub(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_nuw_sub(self, lhs, rhs, name))
end

#or(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns An integer instruction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 445

def or(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_or(self, lhs, rhs, name))
end

#phi(ty, incoming, name = "") ⇒ LLVM::Instruction

Build a Phi node of the given type with the given incoming branches

Parameters:

• ty (LLVM::Type) —

  Specifies the result type

• incoming (Hash{LLVM::BasicBlock => LLVM::Value}) —

  A hash mapping basic blocks to a corresponding value. If the phi node is jumped to from a given basic block, the phi instruction takes on its corresponding value.

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The phi node

# File 'lib/llvm/core/builder.rb', line 924

def phi(ty, incoming, name = "")
  phi = Phi.from_ptr(C.build_phi(self, LLVM::Type(ty), name))
  phi.add_incoming(incoming)
  phi
end

#pointer_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 841

def pointer_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_pointer_cast(self, val, LLVM::Type(ty), name))
end

#position(block, instruction) ⇒ LLVM::Builder

Position the builder at the given Instruction within the given BasicBlock.

Parameters:

• block (LLVM::BasicBlock)
• instruction (LLVM::Instruction)

Returns:

• (LLVM::Builder)

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 26

def position(block, instruction)
  raise ArgumentError, "Block must be LLVM::BasicBlock" if !block.is_a?(LLVM::BasicBlock)

  raise ArgumentError, "Instruction must be LLVM::Instruction" if !instruction.is_a?(LLVM::Instruction)

  C.position_builder(self, block, instruction)
  self
end

#position_at_end(block) ⇒ LLVM::Builder

Positions the builder at the end of the given BasicBlock.

Parameters:

• block (LLVM::BasicBlock)

Returns:

• (LLVM::Builder)

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 50

def position_at_end(block)
  raise ArgumentError, "Block must be LLVM::BasicBlock" if !block.is_a?(LLVM::BasicBlock)

  C.position_builder_at_end(self, block)
  self
end

#position_before(instruction) ⇒ LLVM::Builder

Positions the builder before the given Instruction.

Parameters:

• instruction (LLVM::Instruction)

Returns:

• (LLVM::Builder)

Raises:

• (ArgumentError)

# File 'lib/llvm/core/builder.rb', line 39

def position_before(instruction)
  raise ArgumentError, "Instruction must be LLVM::Instruction" if !instruction.is_a?(LLVM::Instruction)

  C.position_builder_before(self, instruction)
  self
end

#ptr2int(val, ty, name = "") ⇒ LLVM::Instruction

Cast a pointer to an int. Useful for pointer arithmetic.

Parameters:

• val (LLVM::Value) —

  A pointer

• ty (LLVM::Type, #type) —

  An integer type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer of the given type representing the pointer’s address

# File 'lib/llvm/core/builder.rb', line 782

def ptr2int(val, ty, name = "")
  Instruction.from_ptr(C.build_ptr_to_int(self, val, LLVM::Type(ty), name))
end

#ptr_diff(lhs, rhs, name = "") ⇒ LLVM::Instruction

Calculate the difference between two pointers

Parameters:

• lhs (LLVM::Value) —

  A pointer

• rhs (LLVM::Value) —

  A pointer

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer difference between the two pointers

# File 'lib/llvm/core/builder.rb', line 1098

def ptr_diff(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_ptr_diff(lhs, rhs, name))
end

#ret(val = nil) ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value) (defaults to: nil) —

  The value to return

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 73

def ret(val = nil)
  unless [LLVM::Value, NilClass].any? { |c| val.is_a?(c) }
    raise ArgumentError, "Trying to build LLVM ret with non-value: #{val.inspect}"
  end

  Instruction.from_ptr(C.build_ret(self, val))
end

#ret_void ⇒ LLVM::Instruction

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 66

def ret_void
  Instruction.from_ptr(C.build_ret_void(self))
end

#sdiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

Signed division

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer quotient of the two operands

# File 'lib/llvm/core/builder.rb', line 339

def sdiv(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_s_div(self, lhs, rhs, name))
end

#select(_if, _then, _else, name = "") ⇒ LLVM::Instruction

Return a value based on a condition. This differs from ‘cond’ in that its operands are values rather than basic blocks. As a consequence, both arguments must be evaluated.

Parameters:

• _if (LLVM::Value) —

  An i1 or a vector of i1

• _then (LLVM::Value) —

  A value or vector of the same arity as _if

• _else (LLVM::Value) —

  A value or vector of values of the same arity as _if, and of the same type as _then

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An instruction representing either _then or _else

# File 'lib/llvm/core/builder.rb', line 989

def select(_if, _then, _else, name = "")
  Instruction.from_ptr(C.build_select(self, _if, _then, _else, name))
end

#sext(val, ty, name = "") ⇒ LLVM::Instruction

Sign extension by copying the sign bit (highest order bit) of the value until it reaches the bit size of the given type.

Parameters:

• val (LLVM::Value) —

  Integer or vector of integers to be extended

• ty (LLVM::Type) —

  Integer or vector of integer type of greater size than the size of val

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The extended value

# File 'lib/llvm/core/builder.rb', line 703

def sext(val, ty, name = "")
  Instruction.from_ptr(C.build_s_ext(self, val, LLVM::Type(ty), name))
end

#sext_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 823

def sext_or_bit_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_s_ext_or_bit_cast(self, val, LLVM::Type(ty), name))
end

#shl(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns An integer instruction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 407

def shl(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_shl(self, lhs, rhs, name))
end

#shuffle_vector(vec1, vec2, mask, name = "") ⇒ LLVM::Instruction

Shuffle two vectors according to a given mask

Parameters:

• vec1 (LLVM::Value) —

  A vector

• vec2 (LLVM::Value) —

  A vector of the same type and arity as vec1

• mask (LLVM::Value) —

  A vector of i1 of the same arity as vec1 and vec2

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The shuffled vector

# File 'lib/llvm/core/builder.rb', line 1037

def shuffle_vector(vec1, vec2, mask, name = "")
  Instruction.from_ptr(C.build_shuffle_vector(self, vec1, vec2, mask, name))
end

#si2fp(val, ty, name = "") ⇒ LLVM::Instruction

Convert a signed integer to a floating point

Parameters:

• val (LLVM::Value) —

  Signed integer or vector of signed integer to convert

• ty (LLVM::Type, #type) —

  Floating point or vector of floating point target type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The converted value

# File 'lib/llvm/core/builder.rb', line 749

def si2fp(val, ty, name = "")
  Instruction.from_ptr(C.build_si_to_fp(self, val, LLVM::Type(ty), name))
end

#srem(lhs, rhs, name = "") ⇒ LLVM::Instruction

Signed remainder

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer remainder

# File 'lib/llvm/core/builder.rb', line 379

def srem(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_s_rem(self, lhs, rhs, name))
end

#store(val, ptr) ⇒ LLVM::Instruction

Store a value at a given pointer

Parameters:

• val (LLVM::Value) —

  The value to be stored

• ptr (LLVM::Value) —

  A pointer to the same type as val

Returns:

• (LLVM::Instruction) —

  The result of the store operation

# File 'lib/llvm/core/builder.rb', line 563

def store(val, ptr)
  raise "val must be a Value, got #{val.class.name}" unless Value === val
  Instruction.from_ptr(C.build_store(self, val, ptr))
end

#struct_gep(ptr, idx, name = "") ⇒ LLVM::Instruction

Builds a struct getelementptr Instruction.

Parameters:

• ptr (LLVM::Value) —

  A pointer to a structure

• idx (LLVM::Value) —

  Unsigned integer representing the index of a structure member

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The resulting pointer

See Also:

• http://llvm.org/docs/GetElementPtr.html

# File 'lib/llvm/core/builder.rb', line 641

def struct_gep(ptr, idx, name = "")
  struct_gep2(nil, ptr, idx, name)
end

#struct_gep2(type, ptr, idx, name) ⇒ Object

# File 'lib/llvm/core/builder.rb', line 645

def struct_gep2(type, ptr, idx, name)
  must_be_value!(ptr)

  type ||= must_infer_type!(ptr)
  must_be_type!(type)

  ins = C.build_struct_gep2(self, type, ptr, idx, name)
  Instruction.from_ptr(ins)
end

#sub(lhs, rhs, name = "") ⇒ LLVM::Instruction

Integer subtraction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer difference of the two operands

# File 'lib/llvm/core/builder.rb', line 248

def sub(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_sub(self, lhs, rhs, name))
end

#switch(val, default, cases) ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value) —

  The value to switch on

• default (LLVM::BasicBlock) —

  The default case

• cases (Hash{LLVM::Value => LLVM::BasicBlock}) —

  A Hash mapping values to basic blocks. When a value is matched, control will jump to the corresponding basic block.

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 154

def switch(val, default, cases)
  inst = SwitchInst.from_ptr(C.build_switch(self, val, default, cases.size))
  cases.each do |(c, block)|
    inst.add_case(c, block)
  end
  inst
end

#to_ptr ⇒ Object

# File 'lib/llvm/core/builder.rb', line 17

def to_ptr
  @ptr
end

#trunc(val, ty, name = "") ⇒ LLVM::Instruction

Truncates its operand to the given type. The size of the value type must be greater than the size of the target type.

Parameters:

• val (LLVM::Value) —

  Integer or vector of integers to be truncated

• ty (LLVM::Type, #type) —

  Integer or vector of integers of equal size to val

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The truncated value

# File 'lib/llvm/core/builder.rb', line 679

def trunc(val, ty, name = "")
  Instruction.from_ptr(C.build_trunc(self, val, LLVM::Type(ty), name))
end

#trunc_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 833

def trunc_or_bit_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_trunc_or_bit_cast(self, val, LLVM::Type(ty), name))
end

#udiv(lhs, rhs, name = "") ⇒ LLVM::Instruction

Unsigned integer division

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer quotient of the two operands

# File 'lib/llvm/core/builder.rb', line 329

def udiv(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_u_div(self, lhs, rhs, name))
end

#ui2fp(val, ty, name = "") ⇒ LLVM::Instruction

Convert an unsigned integer to a floating point

Parameters:

• val (LLVM::Value) —

  Unsigned integer or vector of unsigned integer to convert

• ty (LLVM::Type, #type) —

  Floating point or vector of floating point target type

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The converted value

# File 'lib/llvm/core/builder.rb', line 737

def ui2fp(val, ty, name = "")
  Instruction.from_ptr(C.build_ui_to_fp(self, val, LLVM::Type(ty), name))
end

#unreachable ⇒ LLVM::Instruction

Generates an instruction with no defined semantics. Can be used to provide hints to the optimizer.

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 199

def unreachable
  Instruction.from_ptr(C.build_unreachable(self))
end

#unwind ⇒ Object

Builds an unwind Instruction.

Raises:

• (DeprecationError)

# File 'lib/llvm/core/builder.rb', line 191

def unwind
  raise DeprecationError
end

#urem(lhs, rhs, name = "") ⇒ LLVM::Instruction

Unsigned remainder

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The integer remainder

# File 'lib/llvm/core/builder.rb', line 369

def urem(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_u_rem(self, lhs, rhs, name))
end

#xor(lhs, rhs, name = "") ⇒ LLVM::Instruction

Returns An integer instruction.

Parameters:

• lhs (LLVM::Value) —

  Integer or vector of integers

• rhs (LLVM::Value) —

  Integer or vector of integers

• name (String) (defaults to: "") —

  Name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  An integer instruction

# File 'lib/llvm/core/builder.rb', line 454

def xor(lhs, rhs, name = "")
  Instruction.from_ptr(C.build_xor(self, lhs, rhs, name))
end

#zext(val, ty, name = "") ⇒ LLVM::Instruction

Zero extends its operand to the given type. The size of the value type must be greater than the size of the target type.

Parameters:

• val (LLVM::Value) —

  Integer or vector of integers to be extended

• ty (LLVM::Type, #type) —

  Integer or vector of integer type of greater size than val

• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction) —

  The extended value

# File 'lib/llvm/core/builder.rb', line 691

def zext(val, ty, name = "")
  Instruction.from_ptr(C.build_z_ext(self, val, LLVM::Type(ty), name))
end

#zext_or_bit_cast(val, ty, name = "") ⇒ LLVM::Instruction

Parameters:

• val (LLVM::Value)
• ty (LLVM::Type, #ty)
• name (String) (defaults to: "") —

  The name of the result in LLVM IR

Returns:

• (LLVM::Instruction)

# File 'lib/llvm/core/builder.rb', line 813

def zext_or_bit_cast(val, ty, name = "")
  Instruction.from_ptr(C.build_z_ext_or_bit_cast(self, val, LLVM::Type(ty), name))
end