mirror of https://github.com/GNOME/gimp.git
364 lines
10 KiB
C
364 lines
10 KiB
C
/* The GIMP -- an image manipulation program
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* Copyright (C) 1995-2001 Spencer Kimball, Peter Mattis, and others
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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 2 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, write to the Free Software
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* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
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*/
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#include "config.h"
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#include <glib-object.h>
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#include "libgimpmath/gimpmath.h"
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#include "core-types.h"
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#include "gimp-transform-resize.h"
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#if defined (HAVE_FINITE)
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#define FINITE(x) finite(x)
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#elif defined (HAVE_ISFINITE)
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#define FINITE(x) isfinite(x)
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#elif defined (G_OS_WIN32)
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#define FINITE(x) _finite(x)
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#else
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#error "no FINITE() implementation available?!"
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#endif
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#define MIN4(a,b,c,d) MIN(MIN(a,b),MIN(c,d))
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#define MAX4(a,b,c,d) MAX(MAX(a,b),MAX(c,d))
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typedef struct
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{
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gdouble x, y;
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} Point;
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typedef struct
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{
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gint xmin, xmax;
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gint ymin, ymax;
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gdouble m, b; /* y = mx + b */
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gboolean top, right;
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} Edge;
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static void gimp_transform_resize_adjust (gdouble dx1,
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gdouble dy1,
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gdouble dx2,
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gdouble dy2,
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gdouble dx3,
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gdouble dy3,
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gdouble dx4,
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gdouble dy4,
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gint *x1,
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gint *y1,
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gint *x2,
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gint *y2);
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static void gimp_transform_resize_crop (gdouble dx1,
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gdouble dy1,
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gdouble dx2,
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gdouble dy2,
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gdouble dx3,
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gdouble dy3,
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gdouble dx4,
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gdouble dy4,
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gint *x1,
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gint *y1,
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gint *x2,
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gint *y2);
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/*
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* This function wants to be passed the inverse transformation matrix!!
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*/
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void
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gimp_transform_resize_boundary (const GimpMatrix3 *inv,
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GimpTransformResize resize,
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gint u1,
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gint v1,
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gint u2,
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gint v2,
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gint *x1,
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gint *y1,
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gint *x2,
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gint *y2)
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{
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gdouble dx1, dx2, dx3, dx4;
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gdouble dy1, dy2, dy3, dy4;
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g_return_if_fail (inv != NULL);
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/* initialize with the original boundary */
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*x1 = u1;
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*y1 = v1;
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*x2 = u2;
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*y2 = v2;
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if (resize == GIMP_TRANSFORM_SIZE_CLIP)
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return;
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gimp_matrix3_transform_point (inv, u1, v1, &dx1, &dy1);
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gimp_matrix3_transform_point (inv, u2, v1, &dx2, &dy2);
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gimp_matrix3_transform_point (inv, u1, v2, &dx3, &dy3);
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gimp_matrix3_transform_point (inv, u2, v2, &dx4, &dy4);
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/* check if the transformation matrix is valid at all */
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if (! FINITE (dx1) || ! FINITE (dy1) ||
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! FINITE (dx2) || ! FINITE (dy2) ||
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! FINITE (dx3) || ! FINITE (dy3) ||
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! FINITE (dx4) || ! FINITE (dy4))
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{
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g_warning ("invalid transform matrix");
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resize = GIMP_TRANSFORM_SIZE_CLIP;
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}
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switch (resize)
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{
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case GIMP_TRANSFORM_SIZE_ADJUST:
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gimp_transform_resize_adjust (dx1, dy1, dx2, dy2, dx3, dy3, dx4, dy4,
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x1, y1, x2, y2);
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break;
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case GIMP_TRANSFORM_SIZE_CLIP:
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/* we are all done already */
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break;
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case GIMP_TRANSFORM_SIZE_CROP:
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gimp_transform_resize_crop (dx1, dy1, dx2, dy2, dx3, dy3, dx4, dy4,
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x1, y1, x2, y2);
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break;
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}
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if (*x1 == *x2)
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(*x2)++;
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if (*y1 == *y2)
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(*y2)++;
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}
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static void
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gimp_transform_resize_adjust (gdouble dx1,
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gdouble dy1,
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gdouble dx2,
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gdouble dy2,
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gdouble dx3,
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gdouble dy3,
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gdouble dx4,
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gdouble dy4,
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gint *x1,
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gint *y1,
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gint *x2,
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gint *y2)
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{
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*x1 = (gint) floor (MIN4 (dx1, dx2, dx3, dx4));
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*y1 = (gint) floor (MIN4 (dy1, dy2, dy3, dy4));
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*x2 = (gint) ceil (MAX4 (dx1, dx2, dx3, dx4));
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*y2 = (gint) ceil (MAX4 (dy1, dy2, dy3, dy4));
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}
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static void
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edge_init (Edge *edge,
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const Point *p,
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const Point *q)
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{
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edge->xmin = MIN (ceil (p->x), ceil (q->x));
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edge->xmax = MAX (floor (p->x), floor (q->x));
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edge->ymin = MIN (ceil (p->y), ceil (q->y));
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edge->ymax = MAX (floor (p->y), floor (q->y));
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edge->top = p->x > q->x;
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edge->right = p->y > q->y;
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edge->m = (q->y - p->y) / (q->x - p->x);
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edge->b = p->y - edge->m * p->x;
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}
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static const Edge *
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find_edge (const Edge *edges,
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gint x,
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gboolean top)
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{
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const Edge *emax = edges;
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gint i;
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for (i = 0; i < 4; i++)
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{
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const Edge *e = edges + i;
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if (e->xmin == x && e->xmax != e->xmin &&
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((e->top && top) || (!e->top && !top)))
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emax = e;
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}
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return emax;
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}
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/* find largest pixel completely inside;
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* look through all edges for intersection
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*/
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static gint
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intersect_x (const Edge *edges,
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gint y)
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{
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gdouble x0 = 0;
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gdouble x1 = 0;
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gint i;
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for (i = 0; i < 4; i++)
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if (edges[i].right && edges[i].ymin <= y && edges[i].ymax >= y)
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{
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x0 = (double) (y + 0.5 - edges[i].b) / edges[i].m;
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x1 = (double) (y - 0.5 - edges[i].b) / edges[i].m;
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}
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return (gint) floor (MIN (x0, x1));
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}
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static gint
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intersect_y (const Edge *edge,
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gint xi)
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{
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gdouble yfirst = edge->m * (xi - 0.5) + edge->b;
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gdouble ylast = edge->m * (xi + 0.5) + edge->b;
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return (gint) floor (edge->top ? MAX (yfirst, ylast) : MIN (yfirst, ylast));
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}
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static void
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gimp_transform_resize_crop (gdouble dx1,
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gdouble dy1,
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gdouble dx2,
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gdouble dy2,
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gdouble dx3,
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gdouble dy3,
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gdouble dx4,
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gdouble dy4,
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gint *x1,
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gint *y1,
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gint *x2,
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gint *y2)
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{
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Point points[4];
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Edge edges[4];
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const Point *a;
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const Point *b;
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const Edge *top;
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const Edge *bottom;
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gint *px;
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gint xmin, ymin;
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gint xmax, ymax;
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gint maxarea = 0;
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gint xi, y;
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gint i;
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/* fill in the points array */
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points[0].x = dx1;
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points[0].y = dy1;
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points[1].x = dx2;
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points[1].y = dy2;
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points[2].x = dx3;
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points[2].y = dy3;
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points[3].x = dx4;
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points[3].y = dy4;
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/* create an array of edges */
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for (i = 0, a = points + 3, b = points; i < 4; i++, a = b, b++)
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edge_init (edges + i, a, b);
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/* determine the bounding box */
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xmin = edges[0].xmin;
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xmax = edges[0].xmax;
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ymin = edges[0].ymin;
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ymax = edges[0].ymax;
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for (i = 1; i < 4; i++)
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{
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const Edge *edge = edges + i;
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if (edge->xmin < xmin)
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xmin = edge->xmin;
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if (edge->xmax > xmax)
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xmax = edge->xmax;
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if (edge->ymin < ymin)
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ymin = edge->ymin;
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if (edge->ymax > ymax)
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ymax = edge->ymax;
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}
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g_printerr ("%d, %d -> %d, %d\n", xmin, ymin, xmax, ymax);
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px = g_new (gint, ymax - ymin + 1);
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for (y = ymin, i = 0; y <= ymax; y++, i++)
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px[i] = intersect_x (edges, y);
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top = find_edge (edges, xmin, TRUE);
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bottom = find_edge (edges, xmax, FALSE);
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g_printerr ("top: %d, %d -> %d, %d\n",
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top->xmin, top->ymin, top->xmax, top->ymax);
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g_printerr ("bottom: %d, %d -> %d, %d\n",
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bottom->xmin, bottom->ymin, bottom->xmax, bottom->ymax);
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for (xi = xmin; xi < xmax; xi++)
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{
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gint ylo, yhi;
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ymin = intersect_y (top, xi);
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ymax = intersect_y (bottom, xi);
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for (ylo = ymax; ylo >= ymin; ylo--)
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{
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for (yhi = ymin; yhi <= ymax; yhi++)
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{
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if (yhi > ylo)
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{
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gint xlo = px[ylo - ymin];
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gint xhi = px[yhi - ymin];
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gint width = MIN (xlo, xhi) - xi;
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gint height = yhi - ylo;
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gint area = width * height;
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if (area > maxarea)
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{
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maxarea = area;
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*x1 = xi;
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*y1 = ylo;
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*x2 = xi + width;
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*y2 = ylo + height;
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}
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}
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}
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}
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if (xi == top->xmax)
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top = find_edge (edges, xi, TRUE);
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if (xi == bottom->xmax)
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bottom = find_edge (edges, xi, FALSE);
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}
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g_printerr ("%d, %d -> %d, %d\n", *x1, *y1, *x2, *y2);
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g_free (px);
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}
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