# GIMP - The GNU Image Manipulation Program
# Copyright (C) 1995 Spencer Kimball and Peter Mattis
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
# You should have received a copy of the GNU General Public License
# along with this program. If not, see .
# "Perlized" from C source by Manish Singh
# Derived from old transform_tools by
# Joao S. O. Bueno Calligaris
# Drawable Transformations
# shortcuts
sub transform_invoke {
my ($progress_text, $assemble_matrix, $check) = @_;
my $success_check = 'gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION,
error);';
if ($check) {
$success_check = "(gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION, error) && " . $check . ");";
}
%invoke = (
code => <<"CODE"
{
gint x, y, width, height;
success = $success_check
if (success &&
gimp_item_mask_intersect (GIMP_ITEM (drawable), &x, &y, &width, &height))
{
GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable));
GimpChannel *mask = gimp_image_get_mask (image);
GimpMatrix3 matrix;
gint off_x, off_y;
gimp_item_get_offset (GIMP_ITEM (drawable), &off_x, &off_y);
x += off_x;
y += off_y;
/* Assemble the transformation matrix */
$assemble_matrix
if (progress)
gimp_progress_start (progress, FALSE, _(\"$progress_text\"));
if (drawable != GIMP_DRAWABLE (mask) &&
! gimp_viewable_get_children (GIMP_VIEWABLE (drawable)) &&
! gimp_channel_is_empty (mask))
{
if (! gimp_drawable_transform_affine (drawable, context,
&matrix, transform_direction,
interpolation,
clip_result, progress))
{
success = FALSE;
}
}
else
{
clip_result = gimp_item_get_clip (GIMP_ITEM (drawable), clip_result);
gimp_item_transform (GIMP_ITEM (drawable), context, &matrix,
transform_direction,
interpolation,
clip_result, progress);
}
if (progress)
gimp_progress_end (progress);
}
}
CODE
)
}
sub transform_default_invoke {
my ($progress_text, $assemble_matrix, $check) = @_;
my $success_check = 'gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION, error);';
if ($check) {
$success_check = "(gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION, error) && " . $check . ");";
}
%invoke = (
code => <<"CODE"
{
gint x, y, width, height;
success = $success_check
if (success &&
gimp_item_mask_intersect (GIMP_ITEM (drawable), &x, &y, &width, &height))
{
GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable));
GimpChannel *mask = gimp_image_get_mask (image);
GimpMatrix3 matrix;
GimpInterpolationType interpolation_type = GIMP_INTERPOLATION_NONE;
gint off_x, off_y;
gimp_item_get_offset (GIMP_ITEM (drawable), &off_x, &off_y);
x += off_x;
y += off_y;
/* Assemble the transformation matrix */
$assemble_matrix
if (interpolate)
interpolation_type = gimp->config->interpolation_type;
if (progress)
gimp_progress_start (progress, FALSE, _(\"$progress_text\"));
if (drawable != GIMP_DRAWABLE (mask) &&
! gimp_viewable_get_children (GIMP_VIEWABLE (drawable)) &&
! gimp_channel_is_empty (mask))
{
if (! gimp_drawable_transform_affine (drawable, context,
&matrix, GIMP_TRANSFORM_FORWARD,
interpolation_type,
clip_result, progress))
{
success = FALSE;
}
}
else
{
clip_result = gimp_item_get_clip (GIMP_ITEM (drawable), clip_result);
gimp_item_transform (GIMP_ITEM (drawable), context, &matrix,
GIMP_TRANSFORM_FORWARD,
interpolation_type,
clip_result, progress);
}
if (progress)
gimp_progress_end (progress);
}
}
CODE
)
}
# The defs
sub drawable_transform_flip_simple {
&std_pdb_deprecated('gimp-item-transform-flip-simple');
&joao_pdb_misc('2004', '2.2');
@inargs = (
{ name => 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'flip_type',
type => 'enum GimpOrientationType (no GIMP_ORIENTATION_UNKNOWN)',
desc => 'Type of flip' },
{ name => 'auto_center', type => 'boolean',
desc => 'Whether to automatically position the axis in the selection center' },
{ name => 'axis', type => 'float',
desc => 'coord. of flip axis' },
{ name => 'clip_result', type => 'boolean',
desc => 'Whether to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The flipped drawable' }
);
%invoke = (
code => <<'CODE'
{
gint x, y, width, height;
success = gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION, error);
if (success &&
gimp_item_mask_intersect (GIMP_ITEM (drawable), &x, &y, &width, &height))
{
GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable));
GimpChannel *mask = gimp_image_get_mask (image);
gimp_transform_get_flip_axis (x, y, width, height,
flip_type, auto_center, &axis);
if (drawable != GIMP_DRAWABLE (mask) &&
! gimp_viewable_get_children (GIMP_VIEWABLE (drawable)) &&
! gimp_channel_is_empty (mask))
{
if (! gimp_drawable_transform_flip (drawable, context,
flip_type, axis, clip_result))
{
success = FALSE;
}
}
else
{
clip_result = gimp_item_get_clip (GIMP_ITEM (drawable), clip_result);
gimp_item_flip (GIMP_ITEM (drawable), context,
flip_type, axis, clip_result);
}
}
}
CODE
);
}
sub drawable_transform_flip {
&std_pdb_deprecated('gimp-item-transform-flip');
&joao_pdb_misc('2004', '2.2');
@inargs = (
{ name => 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'horz. coord. of one end of axis' },
{ name => 'y0', type => 'float',
desc => 'vert. coord. of one end of axis' },
{ name => 'x1', type => 'float',
desc => 'horz. coord. of other end of axis' },
{ name => 'y1', type => 'float',
desc => 'vert. coord. of other end of axis' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'boolean',
desc => 'Whether to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The flipped drawable' }
);
transform_invoke ("Flipping", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'horz. coord. of one end of axis' },
{ name => 'y0', type => 'float',
desc => 'vert. coord. of one end of axis' },
{ name => 'x1', type => 'float',
desc => 'horz. coord. of other end of axis' },
{ name => 'y1', type => 'float',
desc => 'vert. coord. of other end of axis' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'boolean',
desc => 'Whether to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The flipped drawable' }
);
transform_default_invoke ("Flipping", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'The new x coordinate of upper-left corner of original
bounding box' },
{ name => 'y0', type => 'float',
desc => 'The new y coordinate of upper-left corner of original
bounding box' },
{ name => 'x1', type => 'float',
desc => 'The new x coordinate of upper-right corner of original
bounding box' },
{ name => 'y1', type => 'float',
desc => 'The new y coordinate of upper-right corner of original
bounding box' },
{ name => 'x2', type => 'float',
desc => 'The new x coordinate of lower-left corner of original
bounding box' },
{ name => 'y2', type => 'float',
desc => 'The new y coordinate of lower-left corner of original
bounding box' },
{ name => 'x3', type => 'float',
desc => 'The new x coordinate of lower-right corner of original
bounding box' },
{ name => 'y3', type => 'float',
desc => 'The new y coordinate of lower-right corner of original
bounding box' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The newly mapped drawable' }
);
transform_invoke ("Perspective", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'The new x coordinate of upper-left corner of original
bounding box' },
{ name => 'y0', type => 'float',
desc => 'The new y coordinate of upper-left corner of original
bounding box' },
{ name => 'x1', type => 'float',
desc => 'The new x coordinate of upper-right corner of original
bounding box' },
{ name => 'y1', type => 'float',
desc => 'The new y coordinate of upper-right corner of original
bounding box' },
{ name => 'x2', type => 'float',
desc => 'The new x coordinate of lower-left corner of original
bounding box' },
{ name => 'y2', type => 'float',
desc => 'The new y coordinate of lower-left corner of original
bounding box' },
{ name => 'x3', type => 'float',
desc => 'The new x coordinate of lower-right corner of original
bounding box' },
{ name => 'y3', type => 'float',
desc => 'The new y coordinate of lower-right corner of original
bounding box' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The newly mapped drawable' }
);
transform_default_invoke ("Perspective", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'rotate_type', type => 'enum GimpRotationType',
desc => 'Type of rotation' },
{ name => 'auto_center', type => 'boolean',
desc => 'Whether to automatically rotate around the selection center' },
{ name => 'center_x', type => 'int32',
desc => 'The hor. coordinate of the center of rotation' },
{ name => 'center_y', type => 'int32',
desc => 'The vert. coordinate of the center of rotation' },
{ name => 'clip_result', type => 'boolean',
desc => 'Whether to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The rotated drawable' }
);
%invoke = (
code => <<'CODE'
{
gint x, y, width, height;
success = gimp_pdb_item_is_attached (GIMP_ITEM (drawable), NULL,
GIMP_PDB_ITEM_CONTENT |
GIMP_PDB_ITEM_POSITION, error);
if (success &&
gimp_item_mask_intersect (GIMP_ITEM (drawable), &x, &y, &width, &height))
{
GimpImage *image = gimp_item_get_image (GIMP_ITEM (drawable));
GimpChannel *mask = gimp_image_get_mask (image);
gdouble cx = center_x;
gdouble cy = center_y;
gimp_transform_get_rotate_center (x, y, width, height,
auto_center, &cx, &cy);
if (drawable != GIMP_DRAWABLE (mask) &&
! gimp_viewable_get_children (GIMP_VIEWABLE (drawable)) &&
! gimp_channel_is_empty (mask))
{
if (! gimp_drawable_transform_rotate (drawable, context,
rotate_type, cx, cy,
clip_result))
{
success = FALSE;
}
}
else
{
clip_result = gimp_item_get_clip (GIMP_ITEM (drawable), clip_result);
gimp_item_rotate (GIMP_ITEM (drawable), context,
rotate_type, cx, cy,
clip_result);
}
}
}
CODE
);
}
sub drawable_transform_rotate {
&std_pdb_deprecated('gimp-item-transform-rotate');
&joao_pdb_misc('2004', '2.2');
@inargs = (
{ name => 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'angle', type => 'float',
desc => 'The angle of rotation (radians)' },
{ name => 'auto_center', type => 'boolean',
desc => 'Whether to automatically rotate around the selection center' },
{ name => 'center_x', type => 'int32',
desc => 'The hor. coordinate of the center of rotation' },
{ name => 'center_y', type => 'int32',
desc => 'The vert. coordinate of the center of rotation' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The rotated drawable' }
);
transform_invoke ("Rotating", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'angle', type => 'float',
desc => 'The angle of rotation (radians)' },
{ name => 'auto_center', type => 'boolean',
desc => 'Whether to automatically rotate around the selection center' },
{ name => 'center_x', type => 'int32',
desc => 'The hor. coordinate of the center of rotation' },
{ name => 'center_y', type => 'int32',
desc => 'The vert. coordinate of the center of rotation' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The rotated drawable' }
);
transform_default_invoke ("Rotating", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'The new x coordinate of the upper-left corner of the
scaled region' },
{ name => 'y0', type => 'float',
desc => 'The new y coordinate of the upper-left corner of the
scaled region' },
{ name => 'x1', type => 'float',
desc => 'The new x coordinate of the lower-right corner of the
scaled region' },
{ name => 'y1', type => 'float',
desc => 'The new y coordinate of the lower-right corner of the
scaled region' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The scaled drawable' }
);
transform_invoke ("Scaling", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'x0', type => 'float',
desc => 'The new x coordinate of the upper-left corner of the
scaled region' },
{ name => 'y0', type => 'float',
desc => 'The new y coordinate of the upper-left corner of the
scaled region' },
{ name => 'x1', type => 'float',
desc => 'The new x coordinate of the lower-right corner of the
scaled region' },
{ name => 'y1', type => 'float',
desc => 'The new y coordinate of the lower-right corner of the
scaled region' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The scaled drawable' }
);
transform_default_invoke ("Scaling", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'shear_type',
type => 'enum GimpOrientationType (no GIMP_ORIENTATION_UNKNOWN)',
desc => 'Type of shear' },
{ name => 'magnitude', type => 'float',
desc => 'The magnitude of the shear' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The sheared drawable' }
);
transform_invoke ("Shearing", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'shear_type',
type => 'enum GimpOrientationType (no GIMP_ORIENTATION_UNKNOWN)',
desc => 'Type of shear' },
{ name => 'magnitude', type => 'float',
desc => 'The magnitude of the shear' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The sheared drawable' }
);
transform_default_invoke ("Shearing", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'source_x', type => 'float',
desc => 'X coordinate of the transformation center' },
{ name => 'source_y', type => 'float',
desc => 'Y coordinate of the transformation center' },
{ name => 'scale_x', type => 'float',
desc => 'Amount to scale in x direction' },
{ name => 'scale_y', type => 'float',
desc => 'Amount to scale in y direction' },
{ name => 'angle', type => 'float',
desc => 'The angle of rotation (radians)' },
{ name => 'dest_x', type => 'float',
desc => 'X coordinate of where the center goes' },
{ name => 'dest_y', type => 'float',
desc => 'Y coordinate of where the center goes' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The transformed drawable' }
);
transform_invoke ("2D Transform", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'source_x', type => 'float',
desc => 'X coordinate of the transformation center' },
{ name => 'source_y', type => 'float',
desc => 'Y coordinate of the transformation center' },
{ name => 'scale_x', type => 'float',
desc => 'Amount to scale in x direction' },
{ name => 'scale_y', type => 'float',
desc => 'Amount to scale in y direction' },
{ name => 'angle', type => 'float',
desc => 'The angle of rotation (radians)' },
{ name => 'dest_x', type => 'float',
desc => 'X coordinate of where the center goes' },
{ name => 'dest_y', type => 'float',
desc => 'Y coordinate of where the center goes' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The transformed drawable' }
);
transform_default_invoke ("2D Transforming", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'coeff_0_0', type => 'float',
desc => 'coefficient (0,0) of the transformation matrix' },
{ name => 'coeff_0_1', type => 'float',
desc => 'coefficient (0,1) of the transformation matrix' },
{ name => 'coeff_0_2', type => 'float',
desc => 'coefficient (0,2) of the transformation matrix' },
{ name => 'coeff_1_0', type => 'float',
desc => 'coefficient (1,0) of the transformation matrix' },
{ name => 'coeff_1_1', type => 'float',
desc => 'coefficient (1,1) of the transformation matrix' },
{ name => 'coeff_1_2', type => 'float',
desc => 'coefficient (1,2) of the transformation matrix' },
{ name => 'coeff_2_0', type => 'float',
desc => 'coefficient (2,0) of the transformation matrix' },
{ name => 'coeff_2_1', type => 'float',
desc => 'coefficient (2,1) of the transformation matrix' },
{ name => 'coeff_2_2', type => 'float',
desc => 'coefficient (2,2) of the transformation matrix' },
{ name => 'transform_direction', type => 'enum GimpTransformDirection',
desc => 'Direction of transformation' },
{ name => 'interpolation', type => 'enum GimpInterpolationType',
desc => 'Type of interpolation' },
{ name => 'supersample', type => 'boolean', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'recursion_level', type => '1 <= int32', dead => 1,
desc => 'This parameter is ignored' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The transformed drawable' }
);
transform_invoke ("2D Transforming", < 'drawable', type => 'drawable',
desc => 'The affected drawable' },
{ name => 'coeff_0_0', type => 'float',
desc => 'coefficient (0,0) of the transformation matrix' },
{ name => 'coeff_0_1', type => 'float',
desc => 'coefficient (0,1) of the transformation matrix' },
{ name => 'coeff_0_2', type => 'float',
desc => 'coefficient (0,2) of the transformation matrix' },
{ name => 'coeff_1_0', type => 'float',
desc => 'coefficient (1,0) of the transformation matrix' },
{ name => 'coeff_1_1', type => 'float',
desc => 'coefficient (1,1) of the transformation matrix' },
{ name => 'coeff_1_2', type => 'float',
desc => 'coefficient (1,2) of the transformation matrix' },
{ name => 'coeff_2_0', type => 'float',
desc => 'coefficient (2,0) of the transformation matrix' },
{ name => 'coeff_2_1', type => 'float',
desc => 'coefficient (2,1) of the transformation matrix' },
{ name => 'coeff_2_2', type => 'float',
desc => 'coefficient (2,2) of the transformation matrix' },
{ name => 'interpolate', type => 'boolean',
desc => 'Whether to use interpolation and supersampling' },
{ name => 'clip_result', type => 'enum GimpTransformResize',
desc => 'How to clip results' }
);
@outargs = (
{ name => 'drawable', type => 'drawable', no_declare => 1,
desc => 'The transformed drawable' }
);
transform_default_invoke ("2D Transforming", < [@procs], lib => [@procs]);
$desc = 'Transformation procedures';
$doc_title = 'gimpdrawabletransform';
$doc_short_desc = 'Functions to perform transformatrions on drawables.';
$doc_long_desc = 'Functions to perform transformatrions on drawables.';
1;