gimptransformtool.c 49.6 KB
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k/* The GIMP -- an image manipulation program
 * Copyright (C) 1995-2001 Spencer Kimball, Peter Mattis, and others
 *
 * 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 2 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, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 */

#include "config.h"

#include <stdlib.h>

#include <gtk/gtk.h>

#include "libgimpmath/gimpmath.h"
#include "libgimpwidgets/gimpwidgets.h"

#include "apptypes.h"

#include "cursorutil.h"
#include "drawable.h"
#include "floating_sel.h"
#include "gdisplay.h"
#include "gimage_mask.h"
#include "gimpchannel.h"
#include "gimpimage.h"
#include "gimplayer.h"
#include "gimprc.h"
#include "gimpui.h"
#include "info_dialog.h"
#include "path_transform.h"
#include "paint_funcs.h"
#include "pixel_region.h"
#include "undo.h"
#include "tile_manager.h"
#include "tile.h"

#include "tools/tool.h"
#include "tools/gimpdrawtool.h"
#include "tools/gimptransformtool.h"
/*#include "transform_tool.h"*/

#include "libgimp/gimpintl.h"

enum
{
  TRANSFORM,
  LAST_SIGNAL
}

/* This should be migrated to pixel_region or similar... */
/* PixelSurround describes a (read-only)
 *  region around a pixel in a tile manager
 */

typedef struct _PixelSurround
{
  Tile        *tile;
  TileManager *mgr;
  guchar      *buff;
  gint         buff_size;
  gint         bpp;
  gint         w;
  gint         h;
  guchar       bg[MAX_CHANNELS];
  gint         row_stride;
} PixelSurround;

#define BILINEAR(jk,j1k,jk1,j1k1,dx,dy) \
                ((1-dy) * (jk + dx * (j1k - jk)) + \
		    dy  * (jk1 + dx * (j1k1 - jk1)))

/* access interleaved pixels */
#define CUBIC_ROW(dx, row, step) \
  cubic(dx, (row)[0], (row)[step], (row)[step+step], (row)[step+step+step])
#define CUBIC_SCALED_ROW(dx, row, step, i) \
  cubic(dx, (row)[0] * (row)[i], \
            (row)[step] * (row)[step + i], \
            (row)[step+step]* (row)[step+step + i], \
            (row)[step+step+step] * (row)[step+step+step + i])

#define REF_TILE(i,x,y) \
     tile[i] = tile_manager_get_tile (float_tiles, x, y, TRUE, FALSE); \
     src[i] = tile_data_pointer (tile[i], (x) % TILE_WIDTH, (y) % TILE_HEIGHT);

/*  forward function declarations  */
static void      gimp_transform_tool_bounds    (GimpTransformTool          *tool,
                                                GDisplay      *gdisp);
static void      gimp_transform_tool_recalc    (GimpTransformTool          *tool,
					        GDisplay      *gdisp);
static void      gimp_transform_tool_doit      (GimpTransformTool          *tool,
					        GDisplay      *gdisp);
static gdouble   gimp_transform_tool_cubic     (gdouble        dx,
					        gint           jm1,
					        gint           j,
					        gint           jp1,
					        gint           jp2);
static void    gimp_transform_tool_setup_grid  (GimpTransformTool          *tool);
static void    gimp_transform_tool_grid_recalc (GimpTransformTool *gimp_transform_tool);


/*  variables  */
static TranInfo  old_trans_info;
InfoDialog      *transform_info        = NULL;
static gboolean  transform_info_inited = FALSE;


GtkType
gimp_transform_tool_get_type (void)
{
  static GtkType tool_type = 0;

  if (! tool_type)
    {
      GtkTypeInfo tool_info =
      {
        "GimpTransformTool",
        sizeof (GimpTransformTool),
        sizeof (GimpTransformToolClass),
        (GtkClassInitFunc) gimp_transform_tool_class_init,
        (GtkObjectInitFunc) gimp_transform_tool_init,
        /* reserved_1 */ NULL,
        /* reserved_2 */ NULL,
        NULL /* (GtkClassInitFunc) gimp_tool_class_init, */
      };

      tool_type = gtk_type_unique (GIMP_TYPE_DRAW_TOOL, &tool_info);
    }

  return tool_type;
}


static void
gimp_transform_tool_class_init (GimpTransformToolClass *klass)
{
  GtkObjectClass *object_class;
  GimpToolClass  *tool_class;

  object_class = (GtkObjectClass *) klass;
  tool_class   = (GimpToolClass *) klass;

  parent_class = gtk_type_class (GIMP_TYPE_DRAW_TOOL);

  gimp_transform_tool_signals[TRANSFORM] =
    gtk_signal_new ("transform",
    		    GTK_RUN_FIRST,
    		    object_class->type,
    		    GTK_SIGNAL_OFFSET (GimpTransformToolClass,
    		    		       transform),
    		    gtk_marshal_POINTER__POINTER_INT,
    		    GTK_TYPE_POINTER, 2,
    		    GTK_TYPE_POINTER,
    		    GTK_TYPE_INT);

  gtk_object_class_add_signals (object_class, gimp_transform_tool_signals,
				LAST_SIGNAL);

  object_class->destroy = gimp_transform_tool_destroy;

  tool_class->button_press   = gimp_transform_tool_button_press;
  tool_class->button_release = gimp_transform_tool_button_release;
  tool_class->motion         = gimp_transform_tool_motion;
  tool_class->cursor_update  = gimp_transform_tool_cursor_update;
  tool_class->control        = gimp_transform_tool_control;
}

static void
gimp_transform_tool_init (GimpTransformTool *tool)
{
}

static void
pixel_surround_init (PixelSurround *ps,
		     TileManager   *tm,
		     gint           w,
		     gint           h,
		     guchar         bg[MAX_CHANNELS])
{
  gint i;

  for (i = 0; i < MAX_CHANNELS; ++i)
    {
      ps->bg[i] = bg[i];
    }

  ps->tile       = NULL;
  ps->mgr        = tm;
  ps->bpp        = tile_manager_bpp (tm);
  ps->w          = w;
  ps->h          = h;
  /* make sure buffer is big enough */
  ps->buff_size  = w * h * ps->bpp;
  ps->buff       = g_malloc (ps->buff_size);
  ps->row_stride = 0;
}

/* return a pointer to a buffer which contains all the surrounding pixels */
/* strategy: if we are in the middle of a tile, use the tile storage */
/* otherwise just copy into our own malloced buffer and return that */

static guchar *
pixel_surround_lock (PixelSurround *ps,
		     gint           x,
		     gint           y)
{
  gint    i, j;
  guchar *k;
  guchar *ptr;

  ps->tile = tile_manager_get_tile (ps->mgr, x, y, TRUE, FALSE);

  i = x % TILE_WIDTH;
  j = y % TILE_HEIGHT;

  /* do we have the whole region? */
  if (ps->tile &&
      (i < (tile_ewidth(ps->tile) - ps->w)) &&
      (j < (tile_eheight(ps->tile) - ps->h)))
    {
      ps->row_stride = tile_ewidth (ps->tile) * ps->bpp;
      /* is this really the correct way? */
      return tile_data_pointer (ps->tile, i, j);
    }

  /* nope, do this the hard way (for now) */
  if (ps->tile)
    {
      tile_release (ps->tile, FALSE);
      ps->tile = 0;
    }

  /* copy pixels, one by one */
  /* no, this is not the best way, but it's much better than before */
  ptr = ps->buff;
  for (j = y; j < y+ps->h; ++j)
    {
      for (i = x; i < x+ps->w; ++i)
	{
	  Tile *tile = tile_manager_get_tile (ps->mgr, i, j, TRUE, FALSE);

	  if (tile)
	    {
	      guchar *buff = tile_data_pointer (tile,
						i % TILE_WIDTH,
						j % TILE_HEIGHT);

	      for (k = buff; k < buff+ps->bpp; ++k, ++ptr)
		{
		  *ptr = *k;
		}
	      tile_release (tile, FALSE);
	    }
	  else
	    {
	      for (k = ps->bg; k < ps->bg+ps->bpp; ++k, ++ptr)
		{
		  *ptr = *k;
		}
	    }
	}
    }
  ps->row_stride = ps->w * ps->bpp;

  return ps->buff;
}

static gint
pixel_surround_rowstride (PixelSurround *ps)
{
  return ps->row_stride;
}

static void
pixel_surround_release (PixelSurround *ps)
{
  /* always get new tile (for now), so release the old one */
  if (ps->tile)
    {
      tile_release (ps->tile, FALSE);
      ps->tile = 0;
    }
}

static void
pixel_surround_clear (PixelSurround *ps)
{
  if (ps->buff)
    {
      g_free (ps->buff);
      ps->buff = 0;
      ps->buff_size = 0;
    }
}

static void
transform_ok_callback (GtkWidget *widget,
		       gpointer   data)
{
  GimpTransformTool *tool;

  tool = GIMP_TRANSFORM_TOOL(data);
  gimp_transform_tool_doit (tool, tool->gdisp);
}

static void
transform_reset_callback (GtkWidget *widget,
			  gpointer   data)
{
  GimpTransformTool   *tool;
  GimpDrawTool        *dr_tool;
  gint                 i;

  tool    = GIMP_TRANSFORM_TOOL(data);
  dr_tool = GIMP_DRAW_TOOL(data);

  /*  stop the current tool drawing process  */
  gimp_draw_tool_pause (tool);

  /*  Restore the previous transformation info  */
  for (i = 0; i < TRAN_INFO_SIZE; i++)
    tool->trans_info [i] = old_trans_info [i];

  /*  recalculate the tool's transformation matrix  */
  gimp_transform_tool_recalc (tool, tool->gdisp);

  /*  resume drawing the current tool  */
  gimp_draw_tool_resume (tool);
}

static const gchar *action_labels[] =
{
  N_("Rotate"),
  N_("Scale"),
  N_("Shear"),
  N_("Transform")
};

void
gimp_transform_tool_button_press (GimpTransformTool  *gt_tool,
                                  GdkEventButton     *bevent,
			          GDisplay           *gdisp)
{
  GimpTool      *tool;
  GimpDrawable  *drawable;
  gint           dist;
  gint           closest_dist;
  gint           x, y;
  gint           i;
  gint           off_x, off_y;

  tool = GIMP_TOOL(gt_tool);

  gt_tool->bpressed = TRUE; /* ALT */

  drawable = gimp_image_active_drawable (gdisp->gimage);

  if (gt_tool->function == TRANSFORM_CREATING && tool->state == ACTIVE)
    {
      /*  Save the current transformation info  */
      for (i = 0; i < TRAN_INFO_SIZE; i++)
	old_trans_info [i] = gt_tool->trans_info [i];
    }

  /*  if we have already displayed the bounding box and handles,
   *  check to make sure that the display which currently owns the
   *  tool is the one which just received the button pressed event
   */
  if ((gdisp == tool->gdisp) && gt_tool->interactive)
    {
      /*  start drawing the bounding box and handles...  */
      gimp_draw_tool_start (GIMP_DRAW_TOOL(gt_tool), gdisp->canvas->window);
	
      x = bevent->x;
      y = bevent->y;

      closest_dist = SQR (x - gt_tool->sx1) + SQR (y - gt_tool->sy1);
      gt_tool->function = TRANSFORM_HANDLE_1;

      dist = SQR (x - gt_tool->sx2) + SQR (y - gt_tool->sy2);
      if (dist < closest_dist)
	{
	  closest_dist = dist;
	  gt_tool->function = TRANSFORM_HANDLE_2;
	}

      dist = SQR (x - gt_tool->sx3) + SQR (y - gt_tool->sy3);
      if (dist < closest_dist)
	{
	  closest_dist = dist;
	  gt_tool->function = TRANSFORM_HANDLE_3;
	}

      dist = SQR (x - gt_tool->sx4) + SQR (y - gt_tool->sy4);
      if (dist < closest_dist)
	{
	  closest_dist = dist;
	  gt_tool->function = TRANSFORM_HANDLE_4;
	}

      if (tool->type == ROTATE
	  && (SQR (x - gt_tool->scx) +
	      SQR (y - gt_tool->scy)) <= 100)
	{
	  gt_tool->function = TRANSFORM_HANDLE_CENTER;
	}

      /*  Save the current pointer position  */
      gdisplay_untransform_coords (gdisp, bevent->x, bevent->y,
				   &gt_tool->startx,
				   &gt_tool->starty, TRUE, 0);
      gt_tool->lastx = gt_tool->startx;
      gt_tool->lasty = gt_tool->starty;

      gdk_pointer_grab (gdisp->canvas->window, FALSE,
			GDK_POINTER_MOTION_HINT_MASK |
			GDK_BUTTON1_MOTION_MASK |
			GDK_BUTTON_RELEASE_MASK,
			NULL, NULL, bevent->time);

      tool->state = ACTIVE;
      return;
    }


  /*  Initialisation stuff: if the cursor is clicked inside the current
   *  selection, show the bounding box and handles...
   */
  gdisplay_untransform_coords (gdisp, bevent->x, bevent->y, &x, &y,
			       FALSE, FALSE);

  gimp_drawable_offsets (drawable, &off_x, &off_y);
  if (x >= off_x && y >= off_y &&
      x < (off_x + gimp_drawable_width (drawable)) &&
      y < (off_y + gimp_drawable_height (drawable)))
    if (gimage_mask_is_empty (gdisp->gimage) ||
	gimage_mask_value (gdisp->gimage, x, y))
      {
	if (GIMP_IS_LAYER (drawable) &&
	    gimp_layer_get_mask (GIMP_LAYER (drawable)))
	  {
	    g_message (_("Transformations do not work on\n"
			 "layers that contain layer masks."));
	    tool->state = INACTIVE;
	    return;
	  }

	/*  If the tool is already active, clear the current state
	 *  and reset
	 */
	if (tool->state == ACTIVE)
	  gimp_transform_tool_reset (gt_tool, gdisp);

	/*  Set the pointer to the active display  */
	tool->gdisp    = gdisp;
	tool->drawable = drawable;
	tool->state    = ACTIVE;

	/*  Grab the pointer if we're in non-interactive mode  */
	if (!gt_tool->interactive)
	  gdk_pointer_grab (gdisp->canvas->window, FALSE,
			    (GDK_POINTER_MOTION_HINT_MASK |
			     GDK_BUTTON1_MOTION_MASK |
			     GDK_BUTTON_RELEASE_MASK),
			    NULL, NULL, bevent->time);

	/*  Find the transform bounds for some tools (like scale,
	 *  perspective) that actually need the bounds for
	 *  initializing
	 */
	gimp_transform_tool_bounds (gt_tool, gdisp);

	/*  Calculate the grid line endpoints  */
	if (gimp_transform_tool_show_grid ())
	  gimp_transform_tool_setup_grid (tool);

	/*  Initialize the transform tool */
	/*FIXME*/ (* gt_tool->trans_func) (tool, gdisp, TRANSFORM_INIT);

	if (transform_info && !transform_info_inited)
	  {
	    gimp_dialog_create_action_area
	      (GTK_DIALOG (transform_info->shell),

	       gettext (action_labels[tool->type - ROTATE]),
	       transform_ok_callback,
	       tool, NULL, NULL, TRUE, FALSE,
	       _("Reset"), transform_reset_callback,
	       tool, NULL, NULL, FALSE, FALSE,

	       NULL);

	    transform_info_inited = TRUE;
	  }

	/*  Recalculate the transform tool  */
	gimp_transform_tool_recalc (gt_tool, gdisp);

	/*  recall this function to find which handle we're dragging  */
	if (gimp_transform_tool->interactive)
	  gimp_transform_tool_button_press (gt_tool, bevent, gdisp);
      }
}

void
gimp_transform_tool_button_release (GimpTransformTool  *gt_tool,
			            GdkEventButton     *bevent,
			            GDisplay           *gdisp)
{
  GimpTool *tool;
  gint      i;

  tool = GIMP_TOOL(tool);

  gt_tool->bpressed = FALSE; /* ALT */

  /*  if we are creating, there is nothing to be done...exit  */
  if (gt_tool->function == TRANSFORM_CREATING &&
      gt_tool->interactive)
    return;

  /*  release of the pointer grab  */
  gdk_pointer_ungrab (bevent->time);
  gdk_flush ();

  /*  if the 3rd button isn't pressed, transform the selected mask  */
  if (! (bevent->state & GDK_BUTTON3_MASK))
    {
      /* Shift-clicking is another way to approve the transform  */
      if ((bevent->state & GDK_SHIFT_MASK) || (tool->type == FLIP))
	{
	  gimp_transform_tool_doit (tool, gdisp);
	}
      else
	{
	  /*  Only update the paths preview */
	  path_transform_current_path (gdisp->gimage,
				       gt_tool->transform, TRUE);
	}
    }
  else
    {
      /*  stop the current tool drawing process  */
      gimp_draw_tool_pause (GIMP_DRAW_TOOL(gt_tool));

      /*  Restore the previous transformation info  */
      for (i = 0; i < TRAN_INFO_SIZE; i++)
	gt_tool->trans_info [i] = old_trans_info [i];

      /*  recalculate the tool's transformation matrix  */
      gimp_transform_tool_recalc (gt_tool, gdisp);

      /*  resume drawing the current tool  */
      gimp_draw_tool_resume (GIMP_DRAW_TOOL(gt_tool);

      /* Update the paths preview */
      path_transform_current_path (gdisp->gimage,
				   gt_tool->transform, TRUE);
    }

  /*  if this tool is non-interactive, make it inactive after use  */
  if (!gt_tool->interactive)
    tool->state = INACTIVE;
}

void
gimp_transform_tool_doit (GimpTransformTool  *gt_tool,
		          GDisplay           *gdisp)
{
  GimpTool      *tool;
  TileManager   *new_tiles;
  TransformUndo *tu;
  PathUndo      *pundo;
  gboolean       new_layer;
  gint           i, x, y;

  gimp_add_busy_cursors ();

  gimp_transform_tool = GIMP_TOOL(tool);

  /* undraw the tool before we muck around with the transform matrix */
  gimp_draw_tool_pause (GIMP_DRAW_TOOL(gt_tool));

  /*  We're going to dirty this image, but we want to keep the tool
   *  around
   */
  tool->preserve = TRUE;

  /*  Start a transform undo group  */
  undo_push_group_start (gdisp->gimage, TRANSFORM_CORE_UNDO);

  /*  With the old UI, if original is NULL, then this is the
      first transformation. In the new UI, it is always so, right?  */
  g_assert (gt_tool->original == NULL);

  /* If we're in interactive mode, we need to copy the current
   *  selection to the transform tool's private selection pointer, so
   *  that the original source can be repeatedly modified.
   */
  tool->drawable = gimp_image_active_drawable (gdisp->gimage);

  gt_tool->original = gimp_transform_tool_cut (gdisp->gimage,
					       tool->drawable,
					       &new_layer);

  pundo = path_transform_start_undo (gdisp->gimage);

  /*  Send the request for the transformation to the tool...
   */
  /* FIXME */ new_tiles = (* gimp_transform_tool->trans_func) (gt_tool, gdisp,
					      TRANSFORM_FINISH);

  /* FIXME TOO */(* gimp_transform_tool->trans_func) (gt_tool, gdisp, TRANSFORM_INIT);

  gimp_transform_tool_recalc (gt_tool, gdisp);

  if (new_tiles)
    {
      /*  paste the new transformed image to the gimage...also implement
       *  undo...
       */
      /*  FIXME: we should check if the drawable is still valid  */
      gimp_transform_tool_paste (gdisp->gimage, tool->drawable,
			    new_tiles, new_layer);

      /*  create and initialize the transform_undo structure  */
      tu = g_new (TransformUndo, 1);
      tu->tool_ID = tool->ID;
      tu->tool_type = tool->type;
      for (i = 0; i < TRAN_INFO_SIZE; i++)
	tu->trans_info[i] = old_trans_info[i];
      tu->original = NULL;
      tu->path_undo = pundo;

      /*  Make a note of the new current drawable (since we may have
       *  a floating selection, etc now.
       */
      tool->drawable = gimp_image_active_drawable (gdisp->gimage);

      undo_push_transform (gdisp->gimage, (void *) tu);
    }

  /*  push the undo group end  */
  undo_push_group_end (gdisp->gimage);

  /*  We're done dirtying the image, and would like to be restarted
   *  if the image gets dirty while the tool exists
   */
  tool->preserve = FALSE;

  /*  Flush the gdisplays  */
  if (gdisp->disp_xoffset || gdisp->disp_yoffset)
    {
      gdk_window_get_size (gdisp->canvas->window, &x, &y);
      if (gdisp->disp_yoffset)
	{
	  gdisplay_expose_area (gdisp, 0, 0, gdisp->disp_width,
				gdisp->disp_yoffset);
	  gdisplay_expose_area (gdisp, 0, gdisp->disp_yoffset + y,
				gdisp->disp_width, gdisp->disp_height);
	}
      if (gdisp->disp_xoffset)
	{
	  gdisplay_expose_area (gdisp, 0, 0, gdisp->disp_xoffset,
				gdisp->disp_height);
	  gdisplay_expose_area (gdisp, gdisp->disp_xoffset + x, 0,
				gdisp->disp_width, gdisp->disp_height);
	}
    }

  gimp_remove_busy_cursors (NULL);

  gdisplays_flush ();

  gimp_transform_tool_reset (tool, gdisp);

  /*  if this tool is non-interactive, make it inactive after use  */
  if (!gimp_transform_tool->interactive)
    tool->state = INACTIVE;
}

/* FIXME I haven't really touched anything after this point. */

void
gimp_transform_tool_motion (GimpTransformTool           *tool,
		       GdkEventMotion *mevent,
		       GDisplay       *gdisp)
{
  GimpTransformTool *gimp_transform_tool;

  gimp_transform_tool = (GimpTransformTool *) tool->private;

  if (gimp_transform_tool->bpressed == FALSE)
  {
    /*  hey we have not got the button press yet
     *  so go away.
     */
    return;
  }

  /*  if we are creating or this tool is non-interactive, there is
   *  nothing to be done so exit.
   */
  if (gimp_transform_tool->function == TRANSFORM_CREATING ||
      !gimp_transform_tool->interactive)
    return;

  /*  stop the current tool drawing process  */
  gimp_draw_tool_pause (gimp_transform_tool->core, tool);

  gdisplay_untransform_coords (gdisp, mevent->x, mevent->y,
			       &gimp_transform_tool->curx,
			       &gimp_transform_tool->cury, TRUE, 0);
  gimp_transform_tool->state = mevent->state;

  /*  recalculate the tool's transformation matrix  */
  (* gimp_transform_tool->trans_func) (tool, gdisp, TRANSFORM_MOTION);

  gimp_transform_tool->lastx = gimp_transform_tool->curx;
  gimp_transform_tool->lasty = gimp_transform_tool->cury;

  /*  resume drawing the current tool  */
  gimp_draw_tool_resume (gimp_transform_tool->core, tool);
}

void
gimp_transform_tool_cursor_update (GimpTransformTool           *tool,
			      GdkEventMotion *mevent,
			      GDisplay       *gdisp)
{
  GimpTransformTool *gimp_transform_tool;
  GimpDrawable  *drawable;
  GdkCursorType  ctype = GDK_TOP_LEFT_ARROW;
  gint           x, y;

  gimp_transform_tool = (GimpTransformTool *) tool->private;

  gdisplay_untransform_coords (gdisp, mevent->x, mevent->y, &x, &y,
			       FALSE, FALSE);

  if ((drawable = gimp_image_active_drawable (gdisp->gimage)))
    {
      if (GIMP_IS_LAYER (drawable) &&
	  gimp_layer_get_mask (GIMP_LAYER (drawable)))
	{
	  ctype = GIMP_BAD_CURSOR;
	}
      else if (x >= drawable->offset_x &&
	       y >= drawable->offset_y &&
	       x < (drawable->offset_x + drawable->width) &&
	       y < (drawable->offset_y + drawable->height))
	{
	  if (gimage_mask_is_empty (gdisp->gimage) ||
	      gimage_mask_value (gdisp->gimage, x, y))
	    {
	      ctype = GIMP_MOUSE_CURSOR;
	    }
	}
    }

  gdisplay_install_tool_cursor (gdisp,
				ctype,
				tool->tool_cursor,
				GIMP_CURSOR_MODIFIER_NONE);
}

void
gimp_transform_tool_control (GimpTransformTool       *tool,
			GimpTransformToolAction  action,
			GDisplay   *gdisp)
{
  GimpTransformTool *gimp_transform_tool;

  gimp_transform_tool = (GimpTransformTool *) tool->private;

  switch (action)
    {
    case PAUSE:
      gimp_draw_tool_pause (gimp_transform_tool->core, tool);
      break;

    case RESUME:
      gimp_transform_tool_recalc (tool, gdisp);
      gimp_draw_tool_resume (gimp_transform_tool->core, tool);
      break;

    case HALT:
      gimp_transform_tool_reset (tool, gdisp);
      break;

    default:
      break;
    }
}

void
gimp_transform_tool_no_draw (GimpTransformTool *tool)
{
  return;
}

void
gimp_transform_tool_draw (GimpTransformTool *tool)
{
  GDisplay      *gdisp;
  GimpTransformTool *gimp_transform_tool;
  gint           x1, y1, x2, y2, x3, y3, x4, y4;
  gint           srw, srh;
  gint           i, k, gci;
  gint           xa, ya, xb, yb;

  gdisp          = tool->gdisp;
  gimp_transform_tool = (GimpTransformTool *) tool->private;

  gdisplay_transform_coords (gdisp, gimp_transform_tool->tx1, gimp_transform_tool->ty1,
			     &gimp_transform_tool->sx1, &gimp_transform_tool->sy1, FALSE);
  gdisplay_transform_coords (gdisp, gimp_transform_tool->tx2, gimp_transform_tool->ty2,
			     &gimp_transform_tool->sx2, &gimp_transform_tool->sy2, FALSE);
  gdisplay_transform_coords (gdisp, gimp_transform_tool->tx3, gimp_transform_tool->ty3,
			     &gimp_transform_tool->sx3, &gimp_transform_tool->sy3, FALSE);
  gdisplay_transform_coords (gdisp, gimp_transform_tool->tx4, gimp_transform_tool->ty4,
			     &gimp_transform_tool->sx4, &gimp_transform_tool->sy4, FALSE);

  x1 = gimp_transform_tool->sx1;  y1 = gimp_transform_tool->sy1;
  x2 = gimp_transform_tool->sx2;  y2 = gimp_transform_tool->sy2;
  x3 = gimp_transform_tool->sx3;  y3 = gimp_transform_tool->sy3;
  x4 = gimp_transform_tool->sx4;  y4 = gimp_transform_tool->sy4;

  /*  find the handles' width and height  */
  srw = 10;
  srh = 10;

  /*  draw the bounding box  */
  gdk_draw_line (gimp_transform_tool->core->win, gimp_transform_tool->core->gc,
		 x1, y1, x2, y2);
  gdk_draw_line (gimp_transform_tool->core->win, gimp_transform_tool->core->gc,
		 x2, y2, x4, y4);
  gdk_draw_line (gimp_transform_tool->core->win, gimp_transform_tool->core->gc,
		 x3, y3, x4, y4);
  gdk_draw_line (gimp_transform_tool->core->win, gimp_transform_tool->core->gc,
		 x3, y3, x1, y1);

  /*  Draw the grid */

  if ((gimp_transform_tool->grid_coords != NULL) &&
      (gimp_transform_tool->tgrid_coords != NULL) &&
      ((tool->type != PERSPECTIVE) ||
       ((gimp_transform_tool->transform[0][0] >=0.0) &&
	(gimp_transform_tool->transform[1][1] >=0.0))))
    {

      gci = 0;
      k = gimp_transform_tool->ngx + gimp_transform_tool->ngy;
      for (i = 0; i < k; i++)
	{
	  gdisplay_transform_coords (gdisp, gimp_transform_tool->tgrid_coords[gci],
				     gimp_transform_tool->tgrid_coords[gci+1],
				     &xa, &ya, FALSE);
	  gdisplay_transform_coords (gdisp, gimp_transform_tool->tgrid_coords[gci+2],
				     gimp_transform_tool->tgrid_coords[gci+3],
				     &xb, &yb, FALSE);

	  gdk_draw_line (gimp_transform_tool->core->win, gimp_transform_tool->core->gc,
			 xa, ya, xb, yb);
	  gci += 4;
	}
    }

  /*  draw the tool handles  */
  gdk_draw_rectangle (gimp_transform_tool->core->win, gimp_transform_tool->core->gc, 0,
		      x1 - (srw >> 1), y1 - (srh >> 1), srw, srh);
  gdk_draw_rectangle (gimp_transform_tool->core->win, gimp_transform_tool->core->gc, 0,
		      x2 - (srw >> 1), y2 - (srh >> 1), srw, srh);
  gdk_draw_rectangle (gimp_transform_tool->core->win, gimp_transform_tool->core->gc, 0,
		      x3 - (srw >> 1), y3 - (srh >> 1), srw, srh);
  gdk_draw_rectangle (gimp_transform_tool->core->win, gimp_transform_tool->core->gc, 0,
		      x4 - (srw >> 1), y4 - (srh >> 1), srw, srh);

  /*  draw the center  */
  if (tool->type == ROTATE)
    {
      gdisplay_transform_coords (gdisp, gimp_transform_tool->tcx, gimp_transform_tool->tcy,
				 &gimp_transform_tool->scx, &gimp_transform_tool->scy, FALSE);

      gdk_draw_arc (gimp_transform_tool->core->win, gimp_transform_tool->core->gc, 1,
		    gimp_transform_tool->scx - (srw >> 1),
		    gimp_transform_tool->scy - (srh >> 1),
		    srw, srh, 0, 23040);
    }

  if (transform_tool_showpath ())
    {
      GimpMatrix3 tmp_matrix;

      if (transform_tool_direction () == TRANSFORM_CORRECTIVE)
	{
	  gimp_matrix3_invert (gimp_transform_tool->transform, tmp_matrix);
	}
      else
	{
	  gimp_matrix3_duplicate (gimp_transform_tool->transform, tmp_matrix);
	}

      path_transform_draw_current (gdisp, gimp_transform_tool->core, tmp_matrix);
    }
}

GimpTransformTool *
gimp_transform_tool_new (GimpTransformToolType type,
		    gint     interactive)
{
  GimpTransformTool          *tool;
  GimpTransformTool *private;
  gint           i;

  tool = tools_new_tool (type);
  private = g_new0 (GimpTransformTool, 1);

  private->interactive = interactive;

  if (interactive)
    private->core = gimp_draw_tool_new (gimp_transform_tool_draw);
  else
    private->core = gimp_draw_tool_new (gimp_transform_tool_no_draw);

  private->function = TRANSFORM_CREATING;
  private->original = NULL;

  private->bpressed = FALSE;

  for (i = 0; i < TRAN_INFO_SIZE; i++)
    private->trans_info[i] = 0;

  private->grid_coords = private->tgrid_coords = NULL;

  tool->scroll_lock = TRUE;   /*  Disallow scrolling  */
  tool->preserve    = FALSE;  /*  Don't preserve on drawable change  */

  tool->private = (void *) private;


  return tool;
}

void
gimp_transform_tool_free (GimpTransformTool *tool)
{
  GimpTransformTool *gimp_transform_tool;

  gimp_transform_tool = (GimpTransformTool *) tool->private;

  /*  Make sure the selection core is not visible  */
  if (tool->state == ACTIVE)
    gimp_draw_tool_stop (gimp_transform_tool->core, tool);

  /*  Free the selection core  */
  gimp_draw_tool_free (gimp_transform_tool->core);

  /*  Free up the original selection if it exists  */
  if (gimp_transform_tool->original)
    tile_manager_destroy (gimp_transform_tool->original);

  /*  If there is an information dialog, free it up  */
  if (transform_info)
    info_dialog_free (transform_info);

  transform_info        = NULL;
  transform_info_inited = FALSE;

  /*  Free the grid line endpoint arrays if they exist */
  if (gimp_transform_tool->grid_coords != NULL)
    g_free (gimp_transform_tool->grid_coords);

  if (gimp_transform_tool->tgrid_coords != NULL)
    g_free (gimp_transform_tool->tgrid_coords);

  /*  Finally, free the transform tool itself  */
  g_free (gimp_transform_tool);
}

void
gimp_transform_tool_transform_bounding_box (GimpTransformTool *tool)
{
  GimpTransformTool *gimp_transform_tool;
  gint           i, k;
  gint           gci;

  gimp_transform_tool = (GimpTransformTool *) tool->private;

  gimp_matrix3_transform_point (gimp_transform_tool->transform,