module athena__activation_linear !! Module containing implementation of the linear activation function !! !! This module implements a scaled linear (affine) activation function. !! !! Mathematical operation: !! \[ f(x) = \alpha x \] !! !! where \(\alpha\) is a scaling factor (typically \(\alpha=1\)) !! !! Derivative: !! \[ f'(x) = \alpha \] !! !! Properties: Linear transformation, no non-linearity introduced !! Used for regression outputs or when no activation is desired use coreutils, only: real32, print_warning use diffstruc, only: array_type, operator(*) use athena__misc_types, only: base_actv_type use athena__misc_types, only: onnx_attribute_type implicit none private public :: linear_actv_type, create_from_onnx_linear_activation type, extends(base_actv_type) :: linear_actv_type contains procedure, pass(this) :: apply => apply_linear procedure, pass(this) :: reset => reset_linear procedure, pass(this) :: apply_attributes => apply_attributes_linear procedure, pass(this) :: export_attributes => export_attributes_linear end type linear_actv_type interface linear_actv_type procedure initialise end interface linear_actv_type contains !############################################################################### function initialise(scale, attributes) result(activation) !! Initialise a linear activation function implicit none ! Arguments real(real32), intent(in), optional :: scale !! Optional scale factor for activation output type(onnx_attribute_type), dimension(:), intent(in), optional :: attributes !! Optional array of ONNX attributes type(linear_actv_type) :: activation !! Linear activation type call activation%reset() if(present(scale)) activation%scale = scale if(abs(activation%scale-1._real32) .gt. 1.e-6_real32)then activation%apply_scaling = .true. end if if(present(attributes))then call activation%apply_attributes(attributes) end if end function initialise !------------------------------------------------------------------------------- pure subroutine reset_linear(this) !! Reset linear activation function attributes and variables implicit none ! Arguments class(linear_actv_type), intent(inout) :: this !! Linear activation type this%name = "linear" this%scale = 1._real32 this%threshold = 0._real32 this%apply_scaling = .false. end subroutine reset_linear !------------------------------------------------------------------------------- function create_from_onnx_linear_activation(attributes) result(activation) !! Create linear activation function from ONNX attributes implicit none ! Arguments type(onnx_attribute_type), dimension(:), intent(in) :: attributes !! Array of ONNX attributes class(base_actv_type), allocatable :: activation !! Instance of activation type allocate(activation, source = linear_actv_type(attributes = attributes)) end function create_from_onnx_linear_activation !############################################################################### !############################################################################### subroutine apply_attributes_linear(this, attributes) !! Load ONNX attributes into linear activation function implicit none ! Arguments class(linear_actv_type), intent(inout) :: this !! Linear activation type type(onnx_attribute_type), dimension(:), intent(in) :: attributes !! Array of ONNX attributes ! Local variables integer :: i !! Loop variable ! Load provided attributes do i=1, size(attributes,dim=1) select case(trim(attributes(i)%name)) case("scale") read(attributes(i)%val,*) this%scale if(abs(this%scale-1._real32) .gt. 1.e-6_real32)then this%apply_scaling = .true. else this%apply_scaling = .false. end if case("name") if(trim(attributes(i)%val) .ne. trim(this%name))then call print_warning( & 'Linear activation: name attribute "' // & trim(attributes(i)%val) // & '"" does not match expected "' // trim(this%name)//'"' & ) end if case default call print_warning( & 'Linear activation: unknown attribute '// & trim(attributes(i)%name) & ) end select end do end subroutine apply_attributes_linear !############################################################################### !############################################################################### pure function export_attributes_linear(this) result(attributes) !! Export linear activation function attributes as ONNX attributes implicit none ! Arguments class(linear_actv_type), intent(in) :: this !! Linear activation type type(onnx_attribute_type), allocatable, dimension(:) :: attributes !! Array of ONNX attributes ! Local variables character(50) :: buffer !! Temporary string buffer allocate(attributes(2)) write(buffer, '(A)') this%name attributes(1) = onnx_attribute_type( & "name", "string", trim(adjustl(buffer)) ) write(buffer, '(F10.6)') this%scale attributes(2) = onnx_attribute_type( & "scale", "float", trim(adjustl(buffer)) ) end function export_attributes_linear !############################################################################### !############################################################################### function apply_linear(this, val) result(output) !! Apply linear activation to 1D array !! !! Computes: f = scale * x implicit none ! Arguments class(linear_actv_type), intent(in) :: this !! Linear activation type type(array_type), intent(in) :: val !! Input values type(array_type), pointer :: output !! Scaled output values if(this%apply_scaling)then output => val * this%scale else output => val * 1._real32 ! multiplication by 1 to ensure new allocation end if end function apply_linear !############################################################################### end module athena__activation_linear