# AUTOMATICALLY GENERATED BY regops.perl
package Imager::Regops;
use strict;
require Exporter;
use vars qw(@ISA @EXPORT @EXPORT_OK %Attr $MaxOperands $PackCode);
@ISA = qw(Exporter);
@EXPORT_OK = qw(%Attr $MaxOperands $PackCode);
use constant RBC_ADD => 0;
use constant RBC_SUBTRACT => 1;
use constant RBC_MULT => 2;
use constant RBC_DIV => 3;
use constant RBC_MOD => 4;
use constant RBC_POW => 5;
use constant RBC_UMINUS => 6;
use constant RBC_MULTP => 7;
use constant RBC_ADDP => 8;
use constant RBC_SUBTRACTP => 9;
use constant RBC_SIN => 10;
use constant RBC_COS => 11;
use constant RBC_ATAN2 => 12;
use constant RBC_SQRT => 13;
use constant RBC_DISTANCE => 14;
use constant RBC_GETP1 => 15;
use constant RBC_GETP2 => 16;
use constant RBC_GETP3 => 17;
use constant RBC_VALUE => 18;
use constant RBC_HUE => 19;
use constant RBC_SAT => 20;
use constant RBC_HSV => 21;
use constant RBC_RED => 22;
use constant RBC_GREEN => 23;
use constant RBC_BLUE => 24;
use constant RBC_RGB => 25;
use constant RBC_INT => 26;
use constant RBC_IF => 27;
use constant RBC_IFP => 28;
use constant RBC_LE => 29;
use constant RBC_LT => 30;
use constant RBC_GE => 31;
use constant RBC_GT => 32;
use constant RBC_EQ => 33;
use constant RBC_NE => 34;
use constant RBC_AND => 35;
use constant RBC_OR => 36;
use constant RBC_NOT => 37;
use constant RBC_ABS => 38;
use constant RBC_RET => 39;
use constant RBC_JUMP => 40;
use constant RBC_JUMPZ => 41;
use constant RBC_JUMPNZ => 42;
use constant RBC_SET => 43;
use constant RBC_SETP => 44;
use constant RBC_PRINT => 45;
use constant RBC_RGBA => 46;
use constant RBC_HSVA => 47;
use constant RBC_ALPHA => 48;
use constant RBC_LOG => 49;
use constant RBC_EXP => 50;
use constant RBC_DET => 51;
use constant RBC_OP_COUNT => 52;
@EXPORT = qw(RBC_ADD RBC_SUBTRACT RBC_MULT RBC_DIV RBC_MOD RBC_POW RBC_UMINUS RBC_MULTP RBC_ADDP RBC_SUBTRACTP RBC_SIN RBC_COS RBC_ATAN2 RBC_SQRT RBC_DISTANCE RBC_GETP1 RBC_GETP2 RBC_GETP3 RBC_VALUE RBC_HUE RBC_SAT RBC_HSV RBC_RED RBC_GREEN RBC_BLUE RBC_RGB RBC_INT RBC_IF RBC_IFP RBC_LE RBC_LT RBC_GE RBC_GT RBC_EQ RBC_NE RBC_AND RBC_OR RBC_NOT RBC_ABS RBC_RET RBC_JUMP RBC_JUMPZ RBC_JUMPNZ RBC_SET RBC_SETP RBC_PRINT RBC_RGBA RBC_HSVA RBC_ALPHA RBC_LOG RBC_EXP RBC_DET RBC_OP_COUNT);
%Attr =
(
'abs' =>
{
'func' => 1,
'opcode' => 38,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'add' =>
{
'func' => 0,
'opcode' => 0,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'addp' =>
{
'func' => 0,
'opcode' => 8,
'parms' => 2,
'result' => 'p',
'types' => 'pp',
},
'alpha' =>
{
'func' => 1,
'opcode' => 48,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'and' =>
{
'func' => 0,
'opcode' => 35,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'atan2' =>
{
'func' => 1,
'opcode' => 12,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'blue' =>
{
'func' => 1,
'opcode' => 24,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'cos' =>
{
'func' => 1,
'opcode' => 11,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'det' =>
{
'func' => 1,
'opcode' => 51,
'parms' => 4,
'result' => 'r',
'types' => 'rrrr',
},
'distance' =>
{
'func' => 1,
'opcode' => 14,
'parms' => 4,
'result' => 'r',
'types' => 'rrrr',
},
'div' =>
{
'func' => 0,
'opcode' => 3,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'eq' =>
{
'func' => 0,
'opcode' => 33,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'exp' =>
{
'func' => 1,
'opcode' => 50,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'ge' =>
{
'func' => 0,
'opcode' => 31,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'getp1' =>
{
'func' => 1,
'opcode' => 15,
'parms' => 2,
'result' => 'p',
'types' => 'rr',
},
'getp2' =>
{
'func' => 1,
'opcode' => 16,
'parms' => 2,
'result' => 'p',
'types' => 'rr',
},
'getp3' =>
{
'func' => 1,
'opcode' => 17,
'parms' => 2,
'result' => 'p',
'types' => 'rr',
},
'green' =>
{
'func' => 1,
'opcode' => 23,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'gt' =>
{
'func' => 0,
'opcode' => 32,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'hsv' =>
{
'func' => 1,
'opcode' => 21,
'parms' => 3,
'result' => 'p',
'types' => 'rrr',
},
'hsva' =>
{
'func' => 1,
'opcode' => 47,
'parms' => 4,
'result' => 'p',
'types' => 'rrrr',
},
'hue' =>
{
'func' => 1,
'opcode' => 19,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'if' =>
{
'func' => 1,
'opcode' => 27,
'parms' => 3,
'result' => 'r',
'types' => 'rrr',
},
'ifp' =>
{
'func' => 1,
'opcode' => 28,
'parms' => 3,
'result' => 'p',
'types' => 'rpp',
},
'int' =>
{
'func' => 1,
'opcode' => 26,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'jump' =>
{
'func' => 0,
'opcode' => 40,
'parms' => 0,
'result' => undef,
'types' => '',
},
'jumpnz' =>
{
'func' => 0,
'opcode' => 42,
'parms' => 1,
'result' => undef,
'types' => 'r',
},
'jumpz' =>
{
'func' => 0,
'opcode' => 41,
'parms' => 1,
'result' => undef,
'types' => 'r',
},
'le' =>
{
'func' => 0,
'opcode' => 29,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'log' =>
{
'func' => 1,
'opcode' => 49,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'lt' =>
{
'func' => 0,
'opcode' => 30,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'mod' =>
{
'func' => 0,
'opcode' => 4,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'mult' =>
{
'func' => 0,
'opcode' => 2,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'multp' =>
{
'func' => 0,
'opcode' => 7,
'parms' => 2,
'result' => 'p',
'types' => 'pr',
},
'ne' =>
{
'func' => 0,
'opcode' => 34,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'not' =>
{
'func' => 0,
'opcode' => 37,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'op_count' =>
{
'func' => 0,
'opcode' => 52,
'parms' => 0,
'result' => undef,
'types' => '',
},
'or' =>
{
'func' => 0,
'opcode' => 36,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'pow' =>
{
'func' => 0,
'opcode' => 5,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'print' =>
{
'func' => 1,
'opcode' => 45,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'red' =>
{
'func' => 1,
'opcode' => 22,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'ret' =>
{
'func' => 0,
'opcode' => 39,
'parms' => 1,
'result' => undef,
'types' => 'p',
},
'rgb' =>
{
'func' => 1,
'opcode' => 25,
'parms' => 3,
'result' => 'p',
'types' => 'rrr',
},
'rgba' =>
{
'func' => 1,
'opcode' => 46,
'parms' => 4,
'result' => 'p',
'types' => 'rrrr',
},
'sat' =>
{
'func' => 1,
'opcode' => 20,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
'set' =>
{
'func' => 0,
'opcode' => 43,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'setp' =>
{
'func' => 0,
'opcode' => 44,
'parms' => 1,
'result' => 'p',
'types' => 'p',
},
'sin' =>
{
'func' => 1,
'opcode' => 10,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'sqrt' =>
{
'func' => 1,
'opcode' => 13,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'subtract' =>
{
'func' => 0,
'opcode' => 1,
'parms' => 2,
'result' => 'r',
'types' => 'rr',
},
'subtractp' =>
{
'func' => 0,
'opcode' => 9,
'parms' => 2,
'result' => 'p',
'types' => 'pp',
},
'uminus' =>
{
'func' => 0,
'opcode' => 6,
'parms' => 1,
'result' => 'r',
'types' => 'r',
},
'value' =>
{
'func' => 1,
'opcode' => 18,
'parms' => 1,
'result' => 'r',
'types' => 'p',
},
);
$MaxOperands = 4;
$PackCode = "i";
1;
__END__
=head1 NAME
Imager::Regops - generated information about the register based virtual machine
=head1 SYNOPSIS
use Imager::Regops;
$Imager::Regops::Attr{$opname}->{opcode} # opcode for given operator
$Imager::Regops::Attr{$opname}->{parms} # number of parameters
$Imager::Regops::Attr{$opname}->{types} # types of parameters
$Imager::Regops::Attr{$opname}->{func} # operator is a function
$Imager::Regops::Attr{$opname}->{result} # r for numeric, p for pixel result
$Imager::Regops::MaxOperands; # maximum number of operands
=head1 DESCRIPTION
This module is generated automatically from F<regmach.h> so we don't need to
maintain the same information in at least one extra place.
At least that's the idea.
=head1 AUTHOR
Tony Cook, tony@develop-help.com
=head1 SEE ALSO
perl(1), Imager(3), http://imager.perl.org/
=cut