402 lines
13 KiB
C
402 lines
13 KiB
C
/*
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* Wavelet decompose plug-in by Miroslav Talasek, miroslav.talasek@seznam.cz
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*/
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/*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include "config.h"
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#include <libpika/pika.h>
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#include <libpika/pikaui.h>
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#include "libpika/stdplugins-intl.h"
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#define PLUG_IN_PROC "plug-in-wavelet-decompose"
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#define PLUG_IN_ROLE "pika-wavelet-decompose"
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#define PLUG_IN_BINARY "wavelet-decompose"
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typedef struct _Wavelet Wavelet;
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typedef struct _WaveletClass WaveletClass;
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struct _Wavelet
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{
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PikaPlugIn parent_instance;
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};
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struct _WaveletClass
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{
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PikaPlugInClass parent_class;
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};
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#define WAVELET_TYPE (wavelet_get_type ())
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#define WAVELET(obj) (G_TYPE_CHECK_INSTANCE_CAST ((obj), WAVELET_TYPE, Wavelet))
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GType wavelet_get_type (void) G_GNUC_CONST;
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static GList * wavelet_query_procedures (PikaPlugIn *plug_in);
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static PikaProcedure * wavelet_create_procedure (PikaPlugIn *plug_in,
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const gchar *name);
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static PikaValueArray * wavelet_run (PikaProcedure *procedure,
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PikaRunMode run_mode,
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PikaImage *image,
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gint n_drawables,
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PikaDrawable **drawables,
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PikaProcedureConfig *config,
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gpointer run_data);
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static void wavelet_blur (PikaDrawable *drawable,
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gint radius);
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static gboolean wavelet_decompose_dialog (PikaProcedure *procedure,
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GObject *config);
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G_DEFINE_TYPE (Wavelet, wavelet, PIKA_TYPE_PLUG_IN)
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PIKA_MAIN (WAVELET_TYPE)
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DEFINE_STD_SET_I18N
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static void
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wavelet_class_init (WaveletClass *klass)
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{
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PikaPlugInClass *plug_in_class = PIKA_PLUG_IN_CLASS (klass);
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plug_in_class->query_procedures = wavelet_query_procedures;
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plug_in_class->create_procedure = wavelet_create_procedure;
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plug_in_class->set_i18n = STD_SET_I18N;
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}
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static void
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wavelet_init (Wavelet *wavelet)
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{
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}
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static GList *
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wavelet_query_procedures (PikaPlugIn *plug_in)
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{
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return g_list_append (NULL, g_strdup (PLUG_IN_PROC));
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}
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static PikaProcedure *
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wavelet_create_procedure (PikaPlugIn *plug_in,
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const gchar *name)
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{
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PikaProcedure *procedure = NULL;
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if (! strcmp (name, PLUG_IN_PROC))
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{
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procedure = pika_image_procedure_new (plug_in, name,
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PIKA_PDB_PROC_TYPE_PLUGIN,
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wavelet_run, NULL, NULL);
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pika_procedure_set_image_types (procedure, "RGB*, GRAY*");
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pika_procedure_set_sensitivity_mask (procedure,
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PIKA_PROCEDURE_SENSITIVE_DRAWABLE);
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pika_procedure_set_menu_label (procedure, _("_Wavelet-decompose..."));
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pika_procedure_add_menu_path (procedure, "<Image>/Filters/Enhance");
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pika_procedure_set_documentation (procedure,
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_("Wavelet decompose"),
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"Compute and render wavelet scales",
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name);
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pika_procedure_set_attribution (procedure,
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"Miroslav Talasek <miroslav.talasek@seznam.cz>",
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"Miroslav Talasek <miroslav.talasek@seznam.cz>",
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"19 January 2017");
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PIKA_PROC_ARG_INT (procedure, "scales",
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_("Scal_es"),
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_("Number of scales"),
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1, 7, 5,
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G_PARAM_READWRITE);
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PIKA_PROC_ARG_BOOLEAN (procedure, "create-group",
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_("Create a layer group to store the "
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"_decomposition"),
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"Create a layer group to store the "
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"decomposition",
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TRUE,
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G_PARAM_READWRITE);
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PIKA_PROC_ARG_BOOLEAN (procedure, "create-masks",
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_("_Add a layer mask to each scales layer"),
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"Add a layer mask to each scales layer",
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FALSE,
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G_PARAM_READWRITE);
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}
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return procedure;
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}
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static PikaValueArray *
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wavelet_run (PikaProcedure *procedure,
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PikaRunMode run_mode,
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PikaImage *image,
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gint n_drawables,
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PikaDrawable **drawables,
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PikaProcedureConfig *config,
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gpointer run_data)
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{
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PikaLayer **scale_layers;
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PikaLayer *new_scale;
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PikaLayer *parent = NULL;
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PikaDrawable *drawable;
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PikaLayerMode grain_extract_mode = PIKA_LAYER_MODE_GRAIN_EXTRACT;
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PikaLayerMode grain_merge_mode = PIKA_LAYER_MODE_GRAIN_MERGE;
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gint id;
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gint scales;
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gboolean create_group;
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gboolean create_masks;
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gegl_init (NULL, NULL);
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if (n_drawables != 1)
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{
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GError *error = NULL;
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g_set_error (&error, PIKA_PLUG_IN_ERROR, 0,
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_("Procedure '%s' only works with one drawable."),
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pika_procedure_get_name (procedure));
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return pika_procedure_new_return_values (procedure,
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PIKA_PDB_CALLING_ERROR,
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error);
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}
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else
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{
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drawable = drawables[0];
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}
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if (run_mode == PIKA_RUN_INTERACTIVE && ! wavelet_decompose_dialog (procedure, G_OBJECT (config)))
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return pika_procedure_new_return_values (procedure,
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PIKA_PDB_CANCEL,
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NULL);
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g_object_get (config,
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"scales", &scales,
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"create-group", &create_group,
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"create-masks", &create_masks,
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NULL);
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pika_progress_init (_("Wavelet-Decompose"));
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pika_image_undo_group_start (image);
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pika_image_freeze_layers (image);
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if (create_group)
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{
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parent = pika_layer_group_new (image);
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pika_item_set_name (PIKA_ITEM (parent), _("Decomposition"));
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pika_item_set_visible (PIKA_ITEM (parent), FALSE);
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pika_image_insert_layer (image, parent,
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PIKA_LAYER (pika_item_get_parent (PIKA_ITEM (drawable))),
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pika_image_get_item_position (image,
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PIKA_ITEM (drawable)));
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}
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scale_layers = g_new (PikaLayer *, scales);
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new_scale = pika_layer_copy (PIKA_LAYER (drawable));
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pika_image_insert_layer (image, new_scale, parent,
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pika_image_get_item_position (image,
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PIKA_ITEM (drawable)));
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/* the exact result of the grain-extract and grain-merge modes
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* depends on the choice of (gamma-corrected) midpoint intensity
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* value. for the non-legacy modes, the midpoint value is 0.5,
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* which isn't representable exactly using integer precision. for
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* the legacy modes, the midpoint value is 128/255 (i.e., 0x80),
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* which is representable exactly using (gamma-corrected) integer
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* precision. we therefore use the legacy modes when the input
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* image precision is integer, and only use the (preferable)
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* non-legacy modes when the input image precision is floating
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* point.
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*
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* this avoids imperfect reconstruction of the image when using
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* integer precision. see bug #786844.
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*/
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switch (pika_image_get_precision (image))
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{
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case PIKA_PRECISION_U8_LINEAR:
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case PIKA_PRECISION_U8_NON_LINEAR:
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case PIKA_PRECISION_U8_PERCEPTUAL:
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case PIKA_PRECISION_U16_LINEAR:
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case PIKA_PRECISION_U16_NON_LINEAR:
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case PIKA_PRECISION_U16_PERCEPTUAL:
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case PIKA_PRECISION_U32_LINEAR:
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case PIKA_PRECISION_U32_NON_LINEAR:
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case PIKA_PRECISION_U32_PERCEPTUAL:
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grain_extract_mode = PIKA_LAYER_MODE_GRAIN_EXTRACT_LEGACY;
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grain_merge_mode = PIKA_LAYER_MODE_GRAIN_MERGE_LEGACY;
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break;
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case PIKA_PRECISION_HALF_LINEAR:
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case PIKA_PRECISION_HALF_NON_LINEAR:
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case PIKA_PRECISION_HALF_PERCEPTUAL:
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case PIKA_PRECISION_FLOAT_LINEAR:
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case PIKA_PRECISION_FLOAT_NON_LINEAR:
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case PIKA_PRECISION_FLOAT_PERCEPTUAL:
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case PIKA_PRECISION_DOUBLE_LINEAR:
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case PIKA_PRECISION_DOUBLE_NON_LINEAR:
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case PIKA_PRECISION_DOUBLE_PERCEPTUAL:
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grain_extract_mode = PIKA_LAYER_MODE_GRAIN_EXTRACT;
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grain_merge_mode = PIKA_LAYER_MODE_GRAIN_MERGE;
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break;
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}
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for (id = 0 ; id < scales; id++)
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{
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PikaLayer *blur;
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PikaLayer *tmp;
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gchar scale_name[20];
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pika_progress_update ((gdouble) id / (gdouble) scales);
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scale_layers[id] = new_scale;
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g_snprintf (scale_name, sizeof (scale_name), _("Scale %d"), id + 1);
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pika_item_set_name (PIKA_ITEM (new_scale), scale_name);
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tmp = pika_layer_copy (new_scale);
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pika_image_insert_layer (image, tmp, parent,
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pika_image_get_item_position (image,
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PIKA_ITEM (new_scale)));
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wavelet_blur (PIKA_DRAWABLE (tmp), pow (2.0, id));
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blur = pika_layer_copy (tmp);
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pika_image_insert_layer (image, blur, parent,
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pika_image_get_item_position (image,
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PIKA_ITEM (tmp)));
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pika_layer_set_mode (tmp, grain_extract_mode);
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new_scale = pika_image_merge_down (image, tmp,
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PIKA_EXPAND_AS_NECESSARY);
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scale_layers[id] = new_scale;
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pika_item_set_visible (PIKA_ITEM (new_scale), FALSE);
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new_scale = blur;
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}
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pika_item_set_name (PIKA_ITEM (new_scale), _("Residual"));
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for (id = 0; id < scales; id++)
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{
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pika_image_reorder_item (image, PIKA_ITEM (scale_layers[id]),
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PIKA_ITEM (parent),
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pika_image_get_item_position (image,
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PIKA_ITEM (new_scale)));
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pika_layer_set_mode (scale_layers[id], grain_merge_mode);
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if (create_masks)
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{
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PikaLayerMask *mask = pika_layer_create_mask (scale_layers[id],
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PIKA_ADD_MASK_WHITE);
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pika_layer_add_mask (scale_layers[id], mask);
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}
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pika_item_set_visible (PIKA_ITEM (scale_layers[id]), TRUE);
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}
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if (create_group)
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pika_item_set_visible (PIKA_ITEM (parent), TRUE);
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g_free (scale_layers);
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pika_image_thaw_layers (image);
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pika_image_undo_group_end (image);
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pika_progress_update (1.0);
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pika_displays_flush ();
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gegl_exit ();
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return pika_procedure_new_return_values (procedure, PIKA_PDB_SUCCESS, NULL);
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}
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static void
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wavelet_blur (PikaDrawable *drawable,
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gint radius)
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{
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gint x, y, width, height;
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if (pika_drawable_mask_intersect (drawable, &x, &y, &width, &height))
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{
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GeglBuffer *buffer = pika_drawable_get_buffer (drawable);
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GeglBuffer *shadow = pika_drawable_get_shadow_buffer (drawable);
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gegl_render_op (buffer, shadow,
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"gegl:wavelet-blur",
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"radius", (gdouble) radius,
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NULL);
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gegl_buffer_flush (shadow);
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pika_drawable_merge_shadow (drawable, FALSE);
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pika_drawable_update (drawable, x, y, width, height);
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g_object_unref (buffer);
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g_object_unref (shadow);
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}
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}
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static gboolean
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wavelet_decompose_dialog (PikaProcedure *procedure,
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GObject *config)
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{
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GtkWidget *dialog;
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gboolean run;
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pika_ui_init (PLUG_IN_BINARY);
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dialog = pika_procedure_dialog_new (procedure,
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PIKA_PROCEDURE_CONFIG (config),
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_("Wavelet decompose"));
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pika_dialog_set_alternative_button_order (GTK_DIALOG (dialog),
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GTK_RESPONSE_OK,
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GTK_RESPONSE_CANCEL,
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-1);
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pika_window_set_transient (GTK_WINDOW (dialog));
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/* scales */
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pika_procedure_dialog_get_scale_entry (PIKA_PROCEDURE_DIALOG (dialog),
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"scales", 1.0);
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pika_procedure_dialog_fill (PIKA_PROCEDURE_DIALOG (dialog),
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NULL);
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gtk_widget_show (dialog);
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run = pika_procedure_dialog_run (PIKA_PROCEDURE_DIALOG (dialog));
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gtk_widget_destroy (dialog);
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return run;
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}
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