/* * jigsaw - a plug-in for the GIMP * * Copyright (C) Nigel Wetten * * 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. * * Contact info: nigel@cs.nwu.edu * * Version: 1.0.0 * * Version: 1.0.1 * * tim coppefield [timecop@japan.co.jp] * * Added dynamic preview mode. * * Damn, this plugin is the tightest piece of code I ever seen. * I wish all filters in the plugins operated on guchar *buffer * of the entire image :) sweet stuff. * */ #include "config.h" #include #include #include #include #include #include #include "libgimp/stdplugins-intl.h" #define PREVIEW_SIZE 128 typedef enum { BEZIER_1, BEZIER_2 } style_t; typedef enum { LEFT, RIGHT, UP, DOWN } bump_t; static void query (void); static void run (gchar *name, gint nparams, GimpParam *param, gint *nreturn_vals, GimpParam **return_vals); static gint jigsaw (gboolean preview_mode); static void jigsaw_radio_button_update (GtkWidget *widget, gpointer data); static void dialog_box (void); static void fill_preview_with_thumb (GtkWidget *preview_widget, gint32 drawable_ID); static GtkWidget *preview_widget (GimpDrawable *drawable); static void run_callback (GtkWidget *widget, gpointer data); static void check_button_callback (GtkWidget *widget, gpointer data); static void draw_jigsaw (guchar *buffer, gint width, gint height, gint bytes, gboolean preview_mode); static void draw_vertical_border (guchar *buffer, gint width, gint height, gint bytes, gint x_offset, gint ytiles, gint blend_lines, gdouble blend_amount, gboolean preview_mode); static void draw_horizontal_border (guchar *buffer, gint width, gint bytes, gint y_offset, gint xtiles, gint blend_lines, gdouble blend_amount, gboolean preview_mode); static void draw_vertical_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gboolean preview_mode); static void draw_horizontal_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gboolean preview_mode); static void darken_vertical_line (guchar *buffer, gint width, gint bytes, gint *px, gint *py, gdouble delta, gboolean preview_mode); static void lighten_vertical_line (guchar *buffer, gint width, gint bytes, gint *px, gint *py, gdouble delta, gboolean preview_mode); static void darken_horizontal_line (guchar *buffer, gint width, gint bytes, gint *px, gint *py, gdouble delta, gboolean preview_mode); static void lighten_horizontal_line(guchar *buffer, gint width, gint bytes, gint *px, gint *py, gdouble delta, gboolean preview_mode); static void draw_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gboolean preview_mode); static void draw_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gboolean preview_mode); static void draw_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gboolean preview_mode); static void draw_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gboolean preview_mode); static void darken_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void lighten_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void darken_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void lighten_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void darken_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offest, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void lighten_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void darken_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void lighten_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode); static void generate_grid (gint width, gint height, gint xtiles, gint ytiles, gint *x, gint *y); static void generate_bezier (gint px[4], gint py[4], gint steps, gint *cachex, gint *cachey); static void malloc_cache (void); static void free_cache (void); static void init_right_bump (gint width, gint height); static void init_left_bump (gint width, gint height); static void init_up_bump (gint width, gint height); static void init_down_bump (gint width, gint height); static void draw_bezier_line (guchar *buffer, gint width, gint bytes, gint steps, gint *cx, gint *cy, gboolean preview_mode); static void darken_bezier_line (guchar *buffer, gint width, gint bytes, gint x_offset, gint y_offset, gint steps, gint *cx, gint *cy, gdouble delta, gboolean preview_mode); static void lighten_bezier_line (guchar *buffer, gint width, gint bytes, gint x_offset, gint y_offset, gint steps, gint *cx, gint *cy, gdouble delta, gboolean preview_mode); static void draw_bezier_vertical_border (guchar *buffer, gint width, gint height, gint bytes, gint x_offset, gint xtiles, gint ytiles, gint blend_lines, gdouble blend_amount, gint steps, gboolean preview_mode); static void draw_bezier_horizontal_border (guchar *buffer, gint width, gint height, gint bytes, gint x_offset, gint xtiles, gint ytiles, gint blend_lines, gdouble blend_amount, gint steps, gboolean preview_mode); static void check_config (gint width, gint height); #define PLUG_IN_NAME "jigsaw" #define PLUG_IN_STORAGE "jigsaw-storage" #define XFACTOR2 0.0833 #define XFACTOR3 0.2083 #define XFACTOR4 0.2500 #define XFACTOR5 0.2500 #define XFACTOR6 0.2083 #define XFACTOR7 0.0833 #define YFACTOR2 0.1000 #define YFACTOR3 0.2200 #define YFACTOR4 0.1000 #define YFACTOR5 0.1000 #define YFACTOR6 0.4666 #define YFACTOR7 0.1000 #define YFACTOR8 0.2000 #define MAX_VALUE 255 #define MIN_VALUE 0 #define DELTA 0.15 #define BLACK_R 30 #define BLACK_G 30 #define BLACK_B 30 #define WALL_XFACTOR2 0.05 #define WALL_XFACTOR3 0.05 #define WALL_YFACTOR2 0.05 #define WALL_YFACTOR3 0.05 #define WALL_XCONS2 0.2 #define WALL_XCONS3 0.3 #define WALL_YCONS2 0.2 #define WALL_YCONS3 0.3 #define FUDGE 1.2 #define MIN_XTILES 1 #define MAX_XTILES 20 #define MIN_YTILES 1 #define MAX_YTILES 20 #define MIN_BLEND_LINES 0 #define MAX_BLEND_LINES 10 #define MIN_BLEND_AMOUNT 0 #define MAX_BLEND_AMOUNT 1.0 #define SCALE_WIDTH 200 #define ENTRY_WIDTH 40 #define DRAW_POINT(buffer, index) \ do { \ buffer[index] = BLACK_R; \ buffer[index+1] = BLACK_G; \ buffer[index+2] = BLACK_B; \ } while (0) #define DARKEN_POINT(buffer, index, delta, temp) \ do { \ temp = buffer[index]; \ temp -= buffer[index] * delta; \ if (temp < MIN_VALUE) temp = MIN_VALUE; \ buffer[index] = temp; \ temp = buffer[index+1]; \ temp -= buffer[index+1] * delta; \ if (temp < MIN_VALUE) temp = MIN_VALUE; \ buffer[index+1] = temp; \ temp = buffer[index+2]; \ temp -= buffer[index+2] * delta; \ if (temp < MIN_VALUE) temp = MIN_VALUE; \ buffer[index+2] = temp; \ } while (0) #define LIGHTEN_POINT(buffer, index, delta, temp) \ do { \ temp = buffer[index] * delta; \ temp += buffer[index]; \ if (temp > MAX_VALUE) temp = MAX_VALUE; \ buffer[index] = temp; \ temp = buffer[index+1] * delta; \ temp += buffer[index+1]; \ if (temp > MAX_VALUE) temp = MAX_VALUE; \ buffer[index+1] = temp; \ temp = buffer[index+2] * delta; \ temp += buffer[index+2]; \ if (temp > MAX_VALUE) temp = MAX_VALUE; \ buffer[index+2] = temp; \ } while (0) GimpPlugInInfo PLUG_IN_INFO = { NULL, NULL, query, run }; struct config_tag { gint x; gint y; style_t style; gint blend_lines; gdouble blend_amount; }; typedef struct config_tag config_t; static config_t config = { 5, 5, BEZIER_1, 3, 0.5 }; struct globals_tag { GimpDrawable *drawable; gint *cachex1[4]; gint *cachex2[4]; gint *cachey1[4]; gint *cachey2[4]; gint steps[4]; gint *gridx; gint *gridy; gint **blend_outer_cachex1[4]; gint **blend_outer_cachex2[4]; gint **blend_outer_cachey1[4]; gint **blend_outer_cachey2[4]; gint **blend_inner_cachex1[4]; gint **blend_inner_cachex2[4]; gint **blend_inner_cachey1[4]; gint **blend_inner_cachey2[4]; gint dialog_result; gint tooltips; }; typedef struct globals_tag globals_t; static globals_t globals = { 0, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, 0, 0, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, {0, 0, 0, 0}, -1, 1 }; /* preview globals */ static guchar *preview_bits; static GtkWidget *preview; MAIN () static void query (void) { static GimpParamDef args[] = { { GIMP_PDB_INT32, "run_mode", "Interactive, Non-interactive, Last-Vals" }, { GIMP_PDB_IMAGE, "image", "Input image" }, { GIMP_PDB_DRAWABLE, "drawable", "Input drawable" }, { GIMP_PDB_INT32, "x", "Number of tiles across > 0" }, { GIMP_PDB_INT32, "y", "Number of tiles down > 0" }, { GIMP_PDB_INT32, "style", "The style/shape of the jigsaw puzzle, 0 or 1" }, { GIMP_PDB_INT32, "blend_lines", "Number of lines for shading bevels >= 0" }, { GIMP_PDB_FLOAT, "blend_amount", "The power of the light highlights 0 =< 5" } }; static gint nargs = sizeof (args) / sizeof (args[0]); gimp_install_procedure ("plug_in_jigsaw", "Renders a jigsaw puzzle look", "Jigsaw puzzle look", "Nigel Wetten", "Nigel Wetten", "May 2000", N_("/Filters/Render/Pattern/Jigsaw..."), "RGB*", GIMP_PLUGIN, nargs, 0, args, NULL); } static void run (gchar *name, gint nparams, GimpParam *param, gint *nreturn_vals, GimpParam **return_vals) { static GimpParam values[1]; GimpDrawable *drawable; GimpRunModeType run_mode; GimpPDBStatusType status = GIMP_PDB_SUCCESS; run_mode = param[0].data.d_int32; drawable = gimp_drawable_get(param[2].data.d_drawable); globals.drawable = drawable; gimp_tile_cache_ntiles(drawable->width / gimp_tile_width() + 1); switch (run_mode) { case GIMP_RUN_NONINTERACTIVE: INIT_I18N(); if (nparams == 8) { config.x = param[3].data.d_int32; config.y = param[4].data.d_int32; config.style = param[5].data.d_int32; config.blend_lines = param[6].data.d_int32; config.blend_amount = param[7].data.d_float; if (jigsaw(0) == -1) { status = GIMP_PDB_EXECUTION_ERROR; } } else { status = GIMP_PDB_CALLING_ERROR; } break; case GIMP_RUN_INTERACTIVE: INIT_I18N_UI(); gimp_get_data("plug_in_jigsaw", &config); gimp_get_data(PLUG_IN_STORAGE, &globals.tooltips); dialog_box(); if (globals.dialog_result == -1) { status = GIMP_PDB_EXECUTION_ERROR; break; } gimp_progress_init( _("Assembling Jigsaw")); if (jigsaw(0) == -1) { status = GIMP_PDB_CALLING_ERROR; break; } gimp_set_data("plug_in_jigsaw", &config, sizeof(config_t)); gimp_set_data(PLUG_IN_STORAGE, &globals.tooltips, sizeof(globals.tooltips)); gimp_displays_flush(); g_free(preview_bits); break; case GIMP_RUN_WITH_LAST_VALS: INIT_I18N(); gimp_get_data("plug_in_jigsaw", &config); if (jigsaw(0) == -1) { status = GIMP_PDB_EXECUTION_ERROR; gimp_message("An execution error occured."); } else { gimp_displays_flush(); } } /* switch */ gimp_drawable_detach(drawable); *nreturn_vals = 1; *return_vals = values; values[0].type = GIMP_PDB_STATUS; values[0].data.d_status = status; return; } static gint jigsaw (gboolean preview_mode) { GimpPixelRgn src_pr, dest_pr; guchar *buffer; GimpDrawable *drawable = globals.drawable; gint width; gint height; gint bytes; gint buffer_size; srand((gint)NULL); if (preview_mode) { width = GTK_PREVIEW (preview)->buffer_width; height = GTK_PREVIEW (preview)->buffer_height; bytes = GTK_PREVIEW (preview)->bpp; buffer_size = GTK_PREVIEW (preview)->rowstride * height; } else { width = drawable->width; height = drawable->height; bytes = drawable->bpp; buffer_size = bytes * width * height; } /* setup image buffer */ buffer = g_malloc (buffer_size); if (preview_mode) { memcpy (buffer, preview_bits, buffer_size); } else { gimp_pixel_rgn_init (&src_pr, drawable, 0, 0, width, height, FALSE, FALSE); gimp_pixel_rgn_init (&dest_pr, drawable, 0, 0, width, height, TRUE, TRUE); gimp_pixel_rgn_get_rect (&src_pr, buffer, 0, 0, width, height); } check_config (width, height); globals.steps[LEFT] = globals.steps[RIGHT] = globals.steps[UP] = globals.steps[DOWN] = (config.x < config.y) ? (width / config.x * 2) : (height / config.y * 2); malloc_cache (); draw_jigsaw (buffer, width, height, bytes, preview_mode); free_cache (); /* cleanup */ if (preview_mode) { memcpy (GTK_PREVIEW (preview)->buffer, buffer, buffer_size); gtk_widget_queue_draw (preview); } else { gimp_pixel_rgn_set_rect (&dest_pr, buffer, 0, 0, width, height); gimp_drawable_flush (drawable); gimp_drawable_merge_shadow (drawable->drawable_id, TRUE); gimp_drawable_update (drawable->drawable_id, 0, 0, width, height); } g_free(buffer); return 0; } static void generate_bezier (gint px[4], gint py[4], gint steps, gint *cachex, gint *cachey) { gdouble t = 0.0; gdouble sigma = 1.0 / steps; gint i; for (i = 0; i < steps; i++) { gdouble t2, t3, x, y, t_1; t += sigma; t2 = t * t; t3 = t2 * t; t_1 = 1 - t; x = t_1 * t_1 * t_1 * px[0] + 3 * t * t_1 * t_1 * px[1] + 3 * t2 * t_1 * px[2] + t3 * px[3]; y = t_1 * t_1 * t_1 * py[0] + 3 * t * t_1 * t_1 * py[1] + 3 * t2 * t_1 * py[2] + t3 * py[3]; cachex[i] = (gint) (x + 0.2); cachey[i] = (gint) (y + 0.2); } /* for */ return; } static void draw_jigsaw (guchar *buffer, gint width, gint height, gint bytes, gboolean preview_mode) { gint i; gint *x, *y; gint xtiles = config.x; gint ytiles = config.y; gint xlines = xtiles - 1; gint ylines = ytiles - 1; gint blend_lines = config.blend_lines; gdouble blend_amount = config.blend_amount; gint steps = globals.steps[RIGHT]; style_t style = config.style; gint progress_total = xlines + ylines - 1; globals.gridx = g_new (gint, xtiles); globals.gridy = g_new (gint, ytiles); x = globals.gridx; y = globals.gridy; generate_grid (width, height, xtiles, ytiles, globals.gridx, globals.gridy); init_right_bump (width, height); init_left_bump (width, height); init_up_bump (width, height); init_down_bump (width, height); if (style == BEZIER_1) { for (i = 0; i < xlines; i++) { draw_vertical_border (buffer, width, height, bytes, x[i], ytiles, blend_lines, blend_amount, preview_mode); if (!preview_mode) gimp_progress_update ((gdouble) i / (gdouble) progress_total); } for (i = 0; i < ylines; i++) { draw_horizontal_border (buffer, width, bytes, y[i], xtiles, blend_lines, blend_amount, preview_mode); if (!preview_mode) gimp_progress_update ((gdouble) (i + xlines) / (gdouble) progress_total); } } else if (style == BEZIER_2) { for (i = 0; i < xlines; i++) { draw_bezier_vertical_border (buffer, width, height, bytes, x[i], xtiles, ytiles, blend_lines, blend_amount, steps, preview_mode); if (!preview_mode) gimp_progress_update ((gdouble) i / (gdouble) progress_total); } for (i = 0; i < ylines; i++) { draw_bezier_horizontal_border (buffer, width, height, bytes, y[i], xtiles, ytiles, blend_lines, blend_amount, steps, preview_mode); if (!preview_mode) gimp_progress_update ((gdouble) (i + xlines) / (gdouble) progress_total); } } else { printf("draw_jigsaw: bad style\n"); exit(1); } g_free (globals.gridx); g_free (globals.gridy); return; } static void draw_vertical_border (guchar *buffer, gint width, gint height, gint bytes, gint x_offset, gint ytiles, gint blend_lines, gdouble blend_amount, gboolean preview_mode) { gint i, j; gint tile_height = height / ytiles; gint tile_height_eighth = tile_height / 8; gint curve_start_offset = 3 * tile_height_eighth; gint curve_end_offset = curve_start_offset + 2 * tile_height_eighth; gint px[2], py[2]; gint ly[2], dy[2]; gint y_offset = 0; gdouble delta; gdouble sigma = blend_amount / blend_lines; gint right; bump_t style_index; for (i = 0; i < ytiles; i++) { right = rand() & 1; if (right) { style_index = RIGHT; } else { style_index = LEFT; } /* first straight line from top downwards */ px[0] = px[1] = x_offset; py[0] = y_offset; py[1] = y_offset + curve_start_offset - 1; draw_vertical_line (buffer, width, bytes, px, py, preview_mode); delta = blend_amount; dy[0] = ly[0] = py[0]; dy[1] = ly[1] = py[1]; if (!right) { ly[1] += blend_lines + 2; } for (j = 0; j < blend_lines; j++) { dy[0]++; dy[1]--; ly[0]++; ly[1]--; px[0] = x_offset - j - 1; darken_vertical_line (buffer, width, bytes, px, dy, delta, preview_mode); px[0] = x_offset + j + 1; lighten_vertical_line (buffer, width, bytes, px, ly, delta, preview_mode); delta -= sigma; } /* top half of curve */ if (right) { draw_right_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_right_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], delta, j, preview_mode); /* use to be +j + 1 */ lighten_right_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], delta, j, preview_mode); delta -= sigma; } } else { draw_left_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_left_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], delta, j, preview_mode); /* use to be -j - 1 */ lighten_left_bump (buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], delta, j, preview_mode); delta -= sigma; } } /* bottom straight line of a tile wall */ px[0] = px[1] = x_offset; py[0] = y_offset + curve_end_offset; py[1] = globals.gridy[i]; draw_vertical_line (buffer, width, bytes, px, py, preview_mode); delta = blend_amount; dy[0] = ly[0] = py[0]; dy[1] = ly[1] = py[1]; if (right) { dy[0] -= blend_lines + 2; } for (j = 0; j < blend_lines; j++) { dy[0]++; dy[1]--; ly[0]++; ly[1]--; px[0] = x_offset - j - 1; darken_vertical_line (buffer, width, bytes, px, dy, delta, preview_mode); px[0] = x_offset + j + 1; lighten_vertical_line (buffer, width, bytes, px, ly, delta, preview_mode); delta -= sigma; } y_offset = globals.gridy[i]; } /* for */ return; } /* assumes RGB* */ static void draw_horizontal_border (guchar *buffer, gint width, gint bytes, gint y_offset, gint xtiles, gint blend_lines, gdouble blend_amount, gboolean preview_mode) { gint i, j; gint tile_width = width / xtiles; gint tile_width_eighth = tile_width / 8; gint curve_start_offset = 3 * tile_width_eighth; gint curve_end_offset = curve_start_offset + 2 * tile_width_eighth; gint px[2], py[2]; gint dx[2], lx[2]; gint x_offset = 0; gdouble delta; gdouble sigma = blend_amount / blend_lines; gint up; for (i = 0; i < xtiles; i++) { up = rand() & 1; /* first horizontal line across */ px[0] = x_offset; px[1] = x_offset + curve_start_offset - 1; py[0] = py[1] = y_offset; draw_horizontal_line (buffer, width, bytes, px, py, preview_mode); delta = blend_amount; dx[0] = lx[0] = px[0]; dx[1] = lx[1] = px[1]; if (up) { lx[1] += blend_lines + 2; } for (j = 0; j < blend_lines; j++) { dx[0]++; dx[1]--; lx[0]++; lx[1]--; py[0] = y_offset - j - 1; darken_horizontal_line (buffer, width, bytes, dx, py, delta, preview_mode); py[0] = y_offset + j + 1; lighten_horizontal_line (buffer, width, bytes, lx, py, delta, preview_mode); delta -= sigma; } if (up) { draw_up_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_up_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], delta, j, preview_mode); /* use to be +j + 1 */ lighten_up_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], delta, j, preview_mode); delta -= sigma; } } else { draw_down_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be +j + 1 */ darken_down_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], delta, j, preview_mode); /* use to be -j -1 */ lighten_down_bump (buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], delta, j, preview_mode); delta -= sigma; } } /* right horizontal line of tile */ px[0] = x_offset + curve_end_offset; px[1] = globals.gridx[i]; py[0] = py[1] = y_offset; draw_horizontal_line (buffer, width, bytes, px, py, preview_mode); delta = blend_amount; dx[0] = lx[0] = px[0]; dx[1] = lx[1] = px[1]; if (!up) { dx[0] -= blend_lines + 2; } for (j = 0;j < blend_lines; j++) { dx[0]++; dx[1]--; lx[0]++; lx[1]--; py[0] = y_offset - j - 1; darken_horizontal_line (buffer, width, bytes, dx, py, delta, preview_mode); py[0] = y_offset + j + 1; lighten_horizontal_line (buffer, width, bytes, lx, py, delta, preview_mode); delta -= sigma; } x_offset = globals.gridx[i]; } /* for */ } /* assumes going top to bottom */ static void draw_vertical_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + rowstride * py[0]; length = py[1] - py[0] + 1; for (i = 0; i < length; i++) { DRAW_POINT (buffer, index); index += rowstride; } } /* assumes going left to right */ static void draw_horizontal_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + rowstride * py[0]; length = px[1] - px[0] + 1; for (i = 0; i < length; i++) { DRAW_POINT(buffer, index); index += bytes; } } static void draw_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gboolean preview_mode) { gint i; gint x, y; gint index; gint rowstride; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = *(globals.cachex1[RIGHT] + i) + x_offset; y = *(globals.cachey1[RIGHT] + i) + curve_start_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); x = *(globals.cachex2[RIGHT] + i) + x_offset; y = *(globals.cachey2[RIGHT] + i) + curve_start_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); } } static void draw_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gboolean preview_mode) { gint i; gint x, y; gint index; gint rowstride; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = *(globals.cachex1[LEFT] + i) + x_offset; y = *(globals.cachey1[LEFT] + i) + curve_start_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); x = *(globals.cachex2[LEFT] + i) + x_offset; y = *(globals.cachey2[LEFT] + i) + curve_start_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); } } static void draw_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gboolean preview_mode) { gint i; gint x, y; gint index; gint rowstride; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = *(globals.cachex1[UP] + i) + curve_start_offset; y = *(globals.cachey1[UP] + i) + y_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); x = *(globals.cachex2[UP] + i) + curve_start_offset; y = *(globals.cachey2[UP] + i) + y_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); } } static void draw_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gboolean preview_mode) { gint i; gint x, y; gint index; gint rowstride; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = *(globals.cachex1[DOWN] + i) + curve_start_offset; y = *(globals.cachey1[DOWN] + i) + y_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); x = *(globals.cachex2[DOWN] + i) + curve_start_offset; y = *(globals.cachey2[DOWN] + i) + y_offset; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); } } static void malloc_cache (void) { gint i, j; gint blend_lines = config.blend_lines; gint length = blend_lines * sizeof(gint *); for (i = 0; i < 4; i++) { gint steps_length = globals.steps[i] * sizeof(gint); globals.cachex1[i] = g_malloc (steps_length); globals.cachex2[i] = g_malloc (steps_length); globals.cachey1[i] = g_malloc (steps_length); globals.cachey2[i] = g_malloc (steps_length); globals.blend_outer_cachex1[i] = g_malloc (length); globals.blend_outer_cachex2[i] = g_malloc (length); globals.blend_outer_cachey1[i] = g_malloc (length); globals.blend_outer_cachey2[i] = g_malloc (length); globals.blend_inner_cachex1[i] = g_malloc (length); globals.blend_inner_cachex2[i] = g_malloc (length); globals.blend_inner_cachey1[i] = g_malloc (length); globals.blend_inner_cachey2[i] = g_malloc (length); for (j = 0; j < blend_lines; j++) { *(globals.blend_outer_cachex1[i] + j) = g_malloc (steps_length); *(globals.blend_outer_cachex2[i] + j) = g_malloc (steps_length); *(globals.blend_outer_cachey1[i] + j) = g_malloc (steps_length); *(globals.blend_outer_cachey2[i] + j) = g_malloc (steps_length); *(globals.blend_inner_cachex1[i] + j) = g_malloc (steps_length); *(globals.blend_inner_cachex2[i] + j) = g_malloc (steps_length); *(globals.blend_inner_cachey1[i] + j) = g_malloc (steps_length); *(globals.blend_inner_cachey2[i] + j) = g_malloc (steps_length); } } } static void free_cache (void) { gint i, j; gint blend_lines = config.blend_lines; for (i = 0; i < 4; i ++) { g_free (globals.cachex1[i]); g_free (globals.cachex2[i]); g_free (globals.cachey1[i]); g_free (globals.cachey2[i]); for (j = 0; j < blend_lines; j++) { g_free (*(globals.blend_outer_cachex1[i] + j)); g_free (*(globals.blend_outer_cachex2[i] + j)); g_free (*(globals.blend_outer_cachey1[i] + j)); g_free (*(globals.blend_outer_cachey2[i] + j)); g_free (*(globals.blend_inner_cachex1[i] + j)); g_free (*(globals.blend_inner_cachex2[i] + j)); g_free (*(globals.blend_inner_cachey1[i] + j)); g_free (*(globals.blend_inner_cachey2[i] + j)); } g_free (globals.blend_outer_cachex1[i]); g_free (globals.blend_outer_cachex2[i]); g_free (globals.blend_outer_cachey1[i]); g_free (globals.blend_outer_cachey2[i]); g_free (globals.blend_inner_cachex1[i]); g_free (globals.blend_inner_cachex2[i]); g_free (globals.blend_inner_cachey1[i]); g_free (globals.blend_inner_cachey2[i]); } } static void init_right_bump (gint width, gint height) { gint i; gint xtiles = config.x; gint ytiles = config.y; gint steps = globals.steps[RIGHT]; gint px[4], py[4]; gint x_offset = 0; gint tile_width = width / xtiles; gint tile_height = height/ ytiles; gint tile_height_eighth = tile_height / 8; gint curve_start_offset = 0; gint curve_end_offset = curve_start_offset + 2 * tile_height_eighth; gint blend_lines = config.blend_lines; px[0] = x_offset; px[1] = x_offset + XFACTOR2 * tile_width; px[2] = x_offset + XFACTOR3 * tile_width; px[3] = x_offset + XFACTOR4 * tile_width; py[0] = curve_start_offset; py[1] = curve_start_offset + YFACTOR2 * tile_height; py[2] = curve_start_offset - YFACTOR3 * tile_height; py[3] = curve_start_offset + YFACTOR4 * tile_height; generate_bezier(px, py, steps, globals.cachex1[RIGHT], globals.cachey1[RIGHT]); /* outside right bump */ for (i = 0; i < blend_lines; i++) { py[0]--; py[1]--; py[2]--; px[3]++; generate_bezier(px, py, steps, *(globals.blend_outer_cachex1[RIGHT] + i), *(globals.blend_outer_cachey1[RIGHT] + i)); } /* inside right bump */ py[0] += blend_lines; py[1] += blend_lines; py[2] += blend_lines; px[3] -= blend_lines; for (i = 0; i < blend_lines; i++) { py[0]++; py[1]++; py[2]++; px[3]--; generate_bezier(px, py, steps, *(globals.blend_inner_cachex1[RIGHT] + i), *(globals.blend_inner_cachey1[RIGHT] + i)); } /* bottom half of bump */ px[0] = x_offset + XFACTOR5 * tile_width; px[1] = x_offset + XFACTOR6 * tile_width; px[2] = x_offset + XFACTOR7 * tile_width; px[3] = x_offset; py[0] = curve_start_offset + YFACTOR5 * tile_height; py[1] = curve_start_offset + YFACTOR6 * tile_height; py[2] = curve_start_offset + YFACTOR7 * tile_height; py[3] = curve_end_offset; generate_bezier(px, py, steps, globals.cachex2[RIGHT], globals.cachey2[RIGHT]); /* outer right bump */ for (i = 0; i < blend_lines; i++) { py[1]++; py[2]++; py[3]++; px[0]++; generate_bezier(px, py, steps, *(globals.blend_outer_cachex2[RIGHT] + i), *(globals.blend_outer_cachey2[RIGHT] + i)); } /* inner right bump */ py[1] -= blend_lines; py[2] -= blend_lines; py[3] -= blend_lines; px[0] -= blend_lines; for (i = 0; i < blend_lines; i++) { py[1]--; py[2]--; py[3]--; px[0]--; generate_bezier(px, py, steps, *(globals.blend_inner_cachex2[RIGHT] + i), *(globals.blend_inner_cachey2[RIGHT] + i)); } return; } static void init_left_bump (gint width, gint height) { gint i; gint xtiles = config.x; gint ytiles = config.y; gint steps = globals.steps[LEFT]; gint px[4], py[4]; gint x_offset = 0; gint tile_width = width / xtiles; gint tile_height = height / ytiles; gint tile_height_eighth = tile_height / 8; gint curve_start_offset = 0; gint curve_end_offset = curve_start_offset + 2 * tile_height_eighth; gint blend_lines = config.blend_lines; px[0] = x_offset; px[1] = x_offset - XFACTOR2 * tile_width; px[2] = x_offset - XFACTOR3 * tile_width; px[3] = x_offset - XFACTOR4 * tile_width; py[0] = curve_start_offset; py[1] = curve_start_offset + YFACTOR2 * tile_height; py[2] = curve_start_offset - YFACTOR3 * tile_height; py[3] = curve_start_offset + YFACTOR4 * tile_height; generate_bezier(px, py, steps, globals.cachex1[LEFT], globals.cachey1[LEFT]); /* outer left bump */ for (i = 0; i < blend_lines; i++) { py[0]--; py[1]--; py[2]--; px[3]--; generate_bezier(px, py, steps, *(globals.blend_outer_cachex1[LEFT] + i), *(globals.blend_outer_cachey1[LEFT] + i)); } /* inner left bump */ py[0] += blend_lines; py[1] += blend_lines; py[2] += blend_lines; px[3] += blend_lines; for (i = 0; i < blend_lines; i++) { py[0]++; py[1]++; py[2]++; px[3]++; generate_bezier(px, py, steps, *(globals.blend_inner_cachex1[LEFT] + i), *(globals.blend_inner_cachey1[LEFT] + i)); } /* bottom half of bump */ px[0] = x_offset - XFACTOR5 * tile_width; px[1] = x_offset - XFACTOR6 * tile_width; px[2] = x_offset - XFACTOR7 * tile_width; px[3] = x_offset; py[0] = curve_start_offset + YFACTOR5 * tile_height; py[1] = curve_start_offset + YFACTOR6 * tile_height; py[2] = curve_start_offset + YFACTOR7 * tile_height; py[3] = curve_end_offset; generate_bezier(px, py, steps, globals.cachex2[LEFT], globals.cachey2[LEFT]); /* outer left bump */ for (i = 0; i < blend_lines; i++) { py[1]++; py[2]++; py[3]++; px[0]--; generate_bezier(px, py, steps, *(globals.blend_outer_cachex2[LEFT] + i), *(globals.blend_outer_cachey2[LEFT] + i)); } /* inner left bump */ py[1] -= blend_lines; py[2] -= blend_lines; py[3] -= blend_lines; px[0] += blend_lines; for (i = 0; i < blend_lines; i++) { py[1]--; py[2]--; py[3]--; px[0]++; generate_bezier(px, py, steps, *(globals.blend_inner_cachex2[LEFT] + i), *(globals.blend_inner_cachey2[LEFT] + i)); } } static void init_up_bump (gint width, gint height) { gint i; gint xtiles = config.x; gint ytiles = config.y; gint steps = globals.steps[UP]; gint px[4], py[4]; gint y_offset = 0; gint tile_width = width / xtiles; gint tile_height = height/ ytiles; gint tile_width_eighth = tile_width / 8; gint curve_start_offset = 0; gint curve_end_offset = curve_start_offset + 2 * tile_width_eighth; gint blend_lines = config.blend_lines; px[0] = curve_start_offset; px[1] = curve_start_offset + YFACTOR2 * tile_width; px[2] = curve_start_offset - YFACTOR3 * tile_width; px[3] = curve_start_offset + YFACTOR4 * tile_width; py[0] = y_offset; py[1] = y_offset - XFACTOR2 * tile_height; py[2] = y_offset - XFACTOR3 * tile_height; py[3] = y_offset - XFACTOR4 * tile_height; generate_bezier(px, py, steps, globals.cachex1[UP], globals.cachey1[UP]); /* outer up bump */ for (i = 0; i < blend_lines; i++) { px[0]--; px[1]--; px[2]--; py[3]--; generate_bezier(px, py, steps, *(globals.blend_outer_cachex1[UP] + i), *(globals.blend_outer_cachey1[UP] + i)); } /* inner up bump */ px[0] += blend_lines; px[1] += blend_lines; px[2] += blend_lines; py[3] += blend_lines; for (i = 0; i < blend_lines; i++) { px[0]++; px[1]++; px[2]++; py[3]++; generate_bezier(px, py, steps, *(globals.blend_inner_cachex1[UP] + i), *(globals.blend_inner_cachey1[UP] + i)); } /* bottom half of bump */ px[0] = curve_start_offset + YFACTOR5 * tile_width; px[1] = curve_start_offset + YFACTOR6 * tile_width; px[2] = curve_start_offset + YFACTOR7 * tile_width; px[3] = curve_end_offset; py[0] = y_offset - XFACTOR5 * tile_height; py[1] = y_offset - XFACTOR6 * tile_height; py[2] = y_offset - XFACTOR7 * tile_height; py[3] = y_offset; generate_bezier(px, py, steps, globals.cachex2[UP], globals.cachey2[UP]); /* outer up bump */ for (i = 0; i < blend_lines; i++) { px[1]++; px[2]++; px[3]++; py[0]--; generate_bezier(px, py, steps, *(globals.blend_outer_cachex2[UP] + i), *(globals.blend_outer_cachey2[UP] + i)); } /* inner up bump */ px[1] -= blend_lines; px[2] -= blend_lines; px[3] -= blend_lines; py[0] += blend_lines; for (i = 0; i < blend_lines; i++) { px[1]--; px[2]--; px[3]--; py[0]++; generate_bezier(px, py, steps, *(globals.blend_inner_cachex2[UP] + i), *(globals.blend_inner_cachey2[UP] + i)); } return; } static void init_down_bump (gint width, gint height) { gint i; gint xtiles = config.x; gint ytiles = config.y; gint steps = globals.steps[DOWN]; gint px[4], py[4]; gint y_offset = 0; gint tile_width = width / xtiles; gint tile_height = height/ ytiles; gint tile_width_eighth = tile_width / 8; gint curve_start_offset = 0; gint curve_end_offset = curve_start_offset + 2 * tile_width_eighth; gint blend_lines = config.blend_lines; px[0] = curve_start_offset; px[1] = curve_start_offset + YFACTOR2 * tile_width; px[2] = curve_start_offset - YFACTOR3 * tile_width; px[3] = curve_start_offset + YFACTOR4 * tile_width; py[0] = y_offset; py[1] = y_offset + XFACTOR2 * tile_height; py[2] = y_offset + XFACTOR3 * tile_height; py[3] = y_offset + XFACTOR4 * tile_height; generate_bezier(px, py, steps, globals.cachex1[DOWN], globals.cachey1[DOWN]); /* outer down bump */ for (i = 0; i < blend_lines; i++) { px[0]--; px[1]--; px[2]--; py[3]++; generate_bezier(px, py, steps, *(globals.blend_outer_cachex1[DOWN] + i), *(globals.blend_outer_cachey1[DOWN] + i)); } /* inner down bump */ px[0] += blend_lines; px[1] += blend_lines; px[2] += blend_lines; py[3] -= blend_lines; for (i = 0; i < blend_lines; i++) { px[0]++; px[1]++; px[2]++; py[3]--; generate_bezier(px, py, steps, *(globals.blend_inner_cachex1[DOWN] + i), *(globals.blend_inner_cachey1[DOWN] + i)); } /* bottom half of bump */ px[0] = curve_start_offset + YFACTOR5 * tile_width; px[1] = curve_start_offset + YFACTOR6 * tile_width; px[2] = curve_start_offset + YFACTOR7 * tile_width; px[3] = curve_end_offset; py[0] = y_offset + XFACTOR5 * tile_height; py[1] = y_offset + XFACTOR6 * tile_height; py[2] = y_offset + XFACTOR7 * tile_height; py[3] = y_offset; generate_bezier(px, py, steps, globals.cachex2[DOWN], globals.cachey2[DOWN]); /* outer down bump */ for (i = 0; i < blend_lines; i++) { px[1]++; px[2]++; px[3]++; py[0]++; generate_bezier(px, py, steps, *(globals.blend_outer_cachex2[DOWN] + i), *(globals.blend_outer_cachey2[DOWN] + i)); } /* inner down bump */ px[1] -= blend_lines; px[2] -= blend_lines; px[3] -= blend_lines; py[0] -= blend_lines; for (i = 0; i < blend_lines; i++) { px[1]--; px[2]--; px[3]--; py[0]--; generate_bezier(px, py, steps, *(globals.blend_inner_cachex2[DOWN] + i), *(globals.blend_inner_cachey2[DOWN] + i)); } return; } static void generate_grid (gint width, gint height, gint xtiles, gint ytiles, gint *x, gint *y) { gint i; gint xlines = xtiles - 1; gint ylines = ytiles - 1; gint tile_width = width / xtiles; gint tile_height = height / ytiles; gint tile_width_leftover = width % xtiles; gint tile_height_leftover = height % ytiles; gint x_offset = tile_width; gint y_offset = tile_height; gint carry; for (i = 0; i < xlines; i++) { x[i] = x_offset; x_offset += tile_width; } carry = 0; while (tile_width_leftover) { for (i = carry; i < xlines; i++) { x[i] += 1; } tile_width_leftover--; carry++; } x[xlines] = width - 1; /* padding for draw_horizontal_border */ for (i = 0; i < ytiles; i++) { y[i] = y_offset; y_offset += tile_height; } carry = 0; while (tile_height_leftover) { for (i = carry; i < ylines; i++) { y[i] += 1; } tile_height_leftover--; carry++; } y[ylines] = height - 1; /* padding for draw_vertical_border */ } /* assumes RGB* */ /* assumes py[1] > py[0] and px[0] = px[1] */ static void darken_vertical_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gdouble delta, gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + py[0] * rowstride; length = py[1] - py[0] + 1; for (i = 0; i < length; i++) { DARKEN_POINT(buffer, index, delta, temp); index += rowstride; } } /* assumes RGB* */ /* assumes py[1] > py[0] and px[0] = px[1] */ static void lighten_vertical_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gdouble delta, gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + py[0] * rowstride; length = py[1] - py[0] + 1; for (i = 0; i < length; i++) { LIGHTEN_POINT(buffer, index, delta, temp); index += rowstride; } } /* assumes RGB* */ /* assumes px[1] > px[0] and py[0] = py[1] */ static void darken_horizontal_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gdouble delta, gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + py[0] * rowstride; length = px[1] - px[0] + 1; for (i = 0; i < length; i++) { DARKEN_POINT(buffer, index, delta, temp); index += bytes; } } /* assumes RGB* */ /* assumes px[1] > px[0] and py[0] = py[1] */ static void lighten_horizontal_line (guchar *buffer, gint width, gint bytes, gint px[2], gint py[2], gdouble delta, gboolean preview_mode) { gint i; gint rowstride; gint index; gint length; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; index = px[0] * bytes + py[0] * rowstride; length = px[1] - px[0] + 1; for (i = 0; i < length; i++) { LIGHTEN_POINT(buffer, index, delta, temp); index += bytes; } } static void darken_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = x_offset + *(*(globals.blend_inner_cachex1[RIGHT] + j) + i); y = curve_start_offset + *(*(globals.blend_inner_cachey1[RIGHT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { if (i < steps / 1.3) { LIGHTEN_POINT(buffer, index, delta, temp); } else { DARKEN_POINT(buffer, index, delta, temp); } last_index1 = index; } x = x_offset + *(*(globals.blend_inner_cachex2[RIGHT] + j) + i); y = curve_start_offset + *(*(globals.blend_inner_cachey2[RIGHT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { DARKEN_POINT(buffer, index, delta, temp); last_index2 = index; } } } static void lighten_right_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = x_offset + *(*(globals.blend_outer_cachex1[RIGHT] + j) + i); y = curve_start_offset + *(*(globals.blend_outer_cachey1[RIGHT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { if (i < steps / 1.3) { DARKEN_POINT(buffer, index, delta, temp); } else { LIGHTEN_POINT(buffer, index, delta, temp); } last_index1 = index; } x = x_offset + *(*(globals.blend_outer_cachex2[RIGHT] + j) + i); y = curve_start_offset + *(*(globals.blend_outer_cachey2[RIGHT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { LIGHTEN_POINT(buffer, index, delta, temp); last_index2 = index; } } } static void darken_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = x_offset + *(*(globals.blend_outer_cachex1[LEFT] + j) + i); y = curve_start_offset + *(*(globals.blend_outer_cachey1[LEFT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { DARKEN_POINT(buffer, index, delta, temp); last_index1 = index; } x = x_offset + *(*(globals.blend_outer_cachex2[LEFT] + j) + i); y = curve_start_offset + *(*(globals.blend_outer_cachey2[LEFT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { if (i < steps / 4) { DARKEN_POINT(buffer, index, delta, temp); } else { LIGHTEN_POINT(buffer, index, delta, temp); } last_index2 = index; } } } static void lighten_left_bump (guchar *buffer, gint width, gint bytes, gint x_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = x_offset + *(*(globals.blend_inner_cachex1[LEFT] + j) + i); y = curve_start_offset + *(*(globals.blend_inner_cachey1[LEFT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { LIGHTEN_POINT(buffer, index, delta, temp); last_index1 = index; } x = x_offset + *(*(globals.blend_inner_cachex2[LEFT] + j) + i); y = curve_start_offset + *(*(globals.blend_inner_cachey2[LEFT] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { if (i < steps / 4) { LIGHTEN_POINT(buffer, index, delta, temp); } else { DARKEN_POINT(buffer, index, delta, temp); } last_index2 = index; } } } static void darken_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = curve_start_offset + *(*(globals.blend_outer_cachex1[UP] + j) + i); y = y_offset + *(*(globals.blend_outer_cachey1[UP] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { DARKEN_POINT(buffer, index, delta, temp); last_index1 = index; } x = curve_start_offset + *(*(globals.blend_outer_cachex2[UP] + j) + i); y = y_offset + *(*(globals.blend_outer_cachey2[UP] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { if (i < steps / 4) { DARKEN_POINT(buffer, index, delta, temp); } else { LIGHTEN_POINT(buffer, index, delta, temp); } last_index2 = index; } } } static void lighten_up_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = curve_start_offset + *(*(globals.blend_inner_cachex1[UP] + j) + i); y = y_offset + *(*(globals.blend_inner_cachey1[UP] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { LIGHTEN_POINT(buffer, index, delta, temp); last_index1 = index; } x = curve_start_offset + *(*(globals.blend_inner_cachex2[UP] + j) + i); y = y_offset + *(*(globals.blend_inner_cachey2[UP] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { if (i < steps / 4) { LIGHTEN_POINT(buffer, index, delta, temp); } else { DARKEN_POINT(buffer, index, delta, temp); } last_index2 = index; } } } static void darken_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = curve_start_offset + *(*(globals.blend_inner_cachex1[DOWN] + j) + i); y = y_offset + *(*(globals.blend_inner_cachey1[DOWN] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { if (i < steps / 1.2) { LIGHTEN_POINT(buffer, index, delta, temp); } else { DARKEN_POINT(buffer, index, delta, temp); } last_index1 = index; } x = curve_start_offset + *(*(globals.blend_inner_cachex2[DOWN] + j) + i); y = y_offset + *(*(globals.blend_inner_cachey2[DOWN] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { DARKEN_POINT(buffer, index, delta, temp); last_index2 = index; } } } static void lighten_down_bump (guchar *buffer, gint width, gint bytes, gint y_offset, gint curve_start_offset, gint steps, gdouble delta, gint counter, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index1 = -1; gint last_index2 = -1; gint rowstride; gint temp; gint j = counter; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = curve_start_offset + *(*(globals.blend_outer_cachex1[DOWN] + j) + i); y = y_offset + *(*(globals.blend_outer_cachey1[DOWN] + j) + i); index = y * rowstride + x * bytes; if (index != last_index1) { if (i < steps / 1.2) { DARKEN_POINT(buffer, index, delta, temp); } else { LIGHTEN_POINT(buffer, index, delta, temp); } last_index1 = index; } x = curve_start_offset + *(*(globals.blend_outer_cachex2[DOWN] + j) + i); y = y_offset + *(*(globals.blend_outer_cachey2[DOWN] + j) + i); index = y * rowstride + x * bytes; if (index != last_index2) { LIGHTEN_POINT(buffer, index, delta, temp); last_index2 = index; } } } static void draw_bezier_line (guchar *buffer, gint width, gint bytes, gint steps, gint *cx, gint *cy, gboolean preview_mode) { gint i; gint x, y; gint index; gint rowstride; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = cx[i]; y = cy[i]; index = y * rowstride + x * bytes; DRAW_POINT(buffer, index); } } static void darken_bezier_line (guchar *buffer, gint width, gint bytes, gint x_offset, gint y_offset, gint steps, gint *cx, gint *cy, gdouble delta, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index = -1; gint rowstride; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = cx[i] + x_offset; y = cy[i] + y_offset; index = y * rowstride + x * bytes; if (index != last_index) { DARKEN_POINT(buffer, index, delta, temp); last_index = index; } } } static void lighten_bezier_line (guchar *buffer, gint width, gint bytes, gint x_offset, gint y_offset, gint steps, gint *cx, gint *cy, gdouble delta, gboolean preview_mode) { gint i; gint x, y; gint index; gint last_index = -1; gint rowstride; gint temp; rowstride = preview_mode ? GTK_PREVIEW (preview)->rowstride : bytes * width; for (i = 0; i < steps; i++) { x = cx[i] + x_offset; y = cy[i] + y_offset; index = y * rowstride + x * bytes; if (index != last_index) { LIGHTEN_POINT(buffer, index, delta, temp); last_index = index; } } } static void draw_bezier_vertical_border (guchar *buffer, gint width, gint height, gint bytes, gint x_offset, gint xtiles, gint ytiles, gint blend_lines, gdouble blend_amount, gint steps, gboolean preview_mode) { gint i, j; gint tile_width = width / xtiles; gint tile_height = height / ytiles; gint tile_height_eighth = tile_height / 8; gint curve_start_offset = 3 * tile_height_eighth; gint curve_end_offset = curve_start_offset + 2 * tile_height_eighth; gint px[4], py[4]; gint y_offset = 0; gdouble delta; gdouble sigma = blend_amount / blend_lines; gint right; bump_t style_index; gint *cachex, *cachey; cachex = g_new (gint, steps); cachey = g_new (gint, steps); for (i = 0; i < ytiles; i++) { right = rand() & 1; if (right) { style_index = RIGHT; } else { style_index = LEFT; } px[0] = px[3] = x_offset; px[1] = x_offset + WALL_XFACTOR2 * tile_width * FUDGE; px[2] = x_offset + WALL_XFACTOR3 * tile_width * FUDGE; py[0] = y_offset; py[1] = y_offset + WALL_YCONS2 * tile_height; py[2] = y_offset + WALL_YCONS3 * tile_height; py[3] = y_offset + curve_start_offset; if (right) { px[1] = x_offset - WALL_XFACTOR2 * tile_width; px[2] = x_offset - WALL_XFACTOR3 * tile_width; } generate_bezier (px, py, steps, cachex, cachey); draw_bezier_line (buffer, width, bytes, steps, cachex, cachey, preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { px[0] = -j - 1; darken_bezier_line(buffer, width, bytes, px[0], 0, steps, cachex, cachey, delta, preview_mode); px[0] = j + 1; lighten_bezier_line(buffer, width, bytes, px[0], 0, steps, cachex, cachey, delta, preview_mode); delta -= sigma; } if (right) { draw_right_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_right_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], delta, j, preview_mode); /* use to be +j + 1 */ lighten_right_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[RIGHT], delta, j, preview_mode); delta -= sigma; } } else { draw_left_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_left_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], delta, j, preview_mode); /* use to be -j - 1 */ lighten_left_bump(buffer, width, bytes, x_offset, y_offset + curve_start_offset, globals.steps[LEFT], delta, j, preview_mode); delta -= sigma; } } px[0] = px[3] = x_offset; px[1] = x_offset + WALL_XFACTOR2 * tile_width * FUDGE; px[2] = x_offset + WALL_XFACTOR3 * tile_width * FUDGE; py[0] = y_offset + curve_end_offset; py[1] = y_offset + curve_end_offset + WALL_YCONS2 * tile_height; py[2] = y_offset + curve_end_offset + WALL_YCONS3 * tile_height; py[3] = globals.gridy[i]; if (right) { px[1] = x_offset - WALL_XFACTOR2 * tile_width; px[2] = x_offset - WALL_XFACTOR3 * tile_width; } generate_bezier(px, py, steps, cachex, cachey); draw_bezier_line(buffer, width, bytes, steps, cachex, cachey, preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { px[0] = -j - 1; darken_bezier_line(buffer, width, bytes, px[0], 0, steps, cachex, cachey, delta, preview_mode); px[0] = j + 1; lighten_bezier_line(buffer, width, bytes, px[0], 0, steps, cachex, cachey, delta, preview_mode); delta -= sigma; } y_offset = globals.gridy[i]; } /* for */ g_free(cachex); g_free(cachey); } static void draw_bezier_horizontal_border (guchar *buffer, gint width, gint height, gint bytes, gint y_offset, gint xtiles, gint ytiles, gint blend_lines, gdouble blend_amount, gint steps, gboolean preview_mode) { gint i, j; gint tile_width = width / xtiles; gint tile_height = height / ytiles; gint tile_width_eighth = tile_width / 8; gint curve_start_offset = 3 * tile_width_eighth; gint curve_end_offset = curve_start_offset + 2 * tile_width_eighth; gint px[4], py[4]; gint x_offset = 0; gdouble delta; gdouble sigma = blend_amount / blend_lines; gint up; style_t style_index; gint *cachex, *cachey; cachex = g_malloc(steps * sizeof(gint)); cachey = g_malloc(steps * sizeof(gint)); for (i = 0; i < xtiles; i++) { up = rand() & 1; if (up) { style_index = UP; } else { style_index = DOWN; } px[0] = x_offset; px[1] = x_offset + WALL_XCONS2 * tile_width; px[2] = x_offset + WALL_XCONS3 * tile_width; px[3] = x_offset + curve_start_offset; py[0] = py[3] = y_offset; py[1] = y_offset + WALL_YFACTOR2 * tile_height * FUDGE; py[2] = y_offset + WALL_YFACTOR3 * tile_height * FUDGE; if (!up) { py[1] = y_offset - WALL_YFACTOR2 * tile_height; py[2] = y_offset - WALL_YFACTOR3 * tile_height; } generate_bezier(px, py, steps, cachex, cachey); draw_bezier_line(buffer, width, bytes, steps, cachex, cachey, preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { py[0] = -j - 1; darken_bezier_line(buffer, width, bytes, 0, py[0], steps, cachex, cachey, delta, preview_mode); py[0] = j + 1; lighten_bezier_line(buffer, width, bytes, 0, py[0], steps, cachex, cachey, delta, preview_mode); delta -= sigma; } /* bumps */ if (up) { draw_up_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be -j -1 */ darken_up_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], delta, j, preview_mode); /* use to be +j + 1 */ lighten_up_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[UP], delta, j, preview_mode); delta -= sigma; } } else { draw_down_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { /* use to be +j + 1 */ darken_down_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], delta, j, preview_mode); /* use to be -j -1 */ lighten_down_bump(buffer, width, bytes, y_offset, x_offset + curve_start_offset, globals.steps[DOWN], delta, j, preview_mode); delta -= sigma; } } /* ending side wall line */ px[0] = x_offset + curve_end_offset; px[1] = x_offset + curve_end_offset + WALL_XCONS2 * tile_width; px[2] = x_offset + curve_end_offset + WALL_XCONS3 * tile_width; px[3] = globals.gridx[i]; py[0] = py[3] = y_offset; py[1] = y_offset + WALL_YFACTOR2 * tile_height * FUDGE; py[2] = y_offset + WALL_YFACTOR3 * tile_height * FUDGE; if (!up) { py[1] = y_offset - WALL_YFACTOR2 * tile_height; py[2] = y_offset - WALL_YFACTOR3 * tile_height; } generate_bezier(px, py, steps, cachex, cachey); draw_bezier_line(buffer, width, bytes, steps, cachex, cachey, preview_mode); delta = blend_amount; for (j = 0; j < blend_lines; j++) { py[0] = -j - 1; darken_bezier_line(buffer, width, bytes, 0, py[0], steps, cachex, cachey, delta, preview_mode); py[0] = j + 1; lighten_bezier_line(buffer, width, bytes, 0, py[0], steps, cachex, cachey, delta, preview_mode); delta -= sigma; } x_offset = globals.gridx[i]; } /* for */ g_free(cachex); g_free(cachey); } static void check_config (gint width, gint height) { gint tile_width, tile_height; gint tile_width_limit, tile_height_limit; if (config.x < 1) { config.x = 1; } if (config.y < 1) { config.y = 1; } if (config.blend_amount < 0) { config.blend_amount = 0; } if (config.blend_amount > 5) { config.blend_amount = 5; } tile_width = width / config.x; tile_height = height / config.y; tile_width_limit = 0.4 * tile_width; tile_height_limit = 0.4 * tile_height; if ((config.blend_lines > tile_width_limit) || (config.blend_lines > tile_height_limit)) { config.blend_lines = MIN(tile_width_limit, tile_height_limit); } } /******************************************************** GUI ********************************************************/ static void dialog_box (void) { GimpDrawable *drawable = globals.drawable; GtkWidget *dlg; GtkWidget *main_hbox; GtkWidget *abox; GtkWidget *main_vbox; GtkWidget *frame; GtkWidget *rbutton1; GtkWidget *rbutton2; GtkWidget *cbutton; GtkWidget *hbox; GtkWidget *table; GtkObject *adj; gimp_ui_init ("jigsaw", TRUE); dlg = gimp_dialog_new (_("Jigsaw"), "jigsaw", gimp_standard_help_func, "filters/jigsaw.html", GTK_WIN_POS_MOUSE, FALSE, TRUE, FALSE, GTK_STOCK_OK, run_callback, NULL, NULL, NULL, TRUE, FALSE, GTK_STOCK_CANCEL, gtk_widget_destroy, NULL, 1, NULL, FALSE, TRUE, NULL); gtk_signal_connect (GTK_OBJECT (dlg), "destroy", GTK_SIGNAL_FUNC (gtk_main_quit), NULL); /* init tooltips */ gimp_help_init (); if (globals.tooltips == 0) { gimp_help_disable_tooltips (); } main_hbox = gtk_hbox_new (FALSE, 2); gtk_container_set_border_width (GTK_CONTAINER (main_hbox), 6); gtk_box_pack_start (GTK_BOX (GTK_DIALOG (dlg)->vbox), main_hbox, TRUE, TRUE, 0); gtk_widget_show (main_hbox); /* make a nice frame */ frame = gtk_frame_new (_("Preview")); gtk_container_set_border_width (GTK_CONTAINER (frame), 4); gtk_box_pack_start (GTK_BOX (main_hbox), frame, FALSE, FALSE, 0); gtk_widget_show (frame); abox = gtk_alignment_new (0.5, 0.5, 0.0, 0.0); gtk_container_set_border_width (GTK_CONTAINER (abox), 4); gtk_container_add (GTK_CONTAINER (frame), abox); gtk_widget_show (abox); frame = gtk_frame_new (NULL); gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_IN); gtk_container_add (GTK_CONTAINER (abox), frame); gtk_widget_show (frame); preview = preview_widget (drawable); /* we are here */ gtk_container_add (GTK_CONTAINER (frame), preview); jigsaw(1); /* render preview */ gtk_widget_show (preview); main_vbox = gtk_vbox_new (FALSE, 4); gtk_container_set_border_width (GTK_CONTAINER (main_vbox), 6); gtk_box_pack_start (GTK_BOX (main_hbox), main_vbox, TRUE, TRUE, 0); gtk_widget_show (main_vbox); frame = gtk_frame_new (_("Number of Tiles")); gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_ETCHED_IN); gtk_box_pack_start (GTK_BOX (main_vbox), frame, FALSE, FALSE, 0); table = gtk_table_new (2, 3, FALSE); gtk_table_set_col_spacings (GTK_TABLE (table), 4); gtk_table_set_row_spacings (GTK_TABLE (table), 2); gtk_container_set_border_width (GTK_CONTAINER (table), 4); gtk_container_add (GTK_CONTAINER (frame), table); /* xtiles */ adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 0, _("Horizontal:"), SCALE_WIDTH, 0, config.x, MIN_XTILES, MAX_XTILES, 1.0, 4.0, 0, TRUE, 0, 0, _("Number of pieces going across"), NULL); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (gimp_int_adjustment_update), &config.x); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (jigsaw), NULL); /* ytiles */ adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 1, _("Vertical:"), SCALE_WIDTH, 0, config.y, MIN_YTILES, MAX_YTILES, 1.0, 4.0, 0, TRUE, 0, 0, _("Number of pieces going down"), NULL); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (gimp_int_adjustment_update), &config.y); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (jigsaw), NULL); gtk_widget_show (table); gtk_widget_show (frame); frame = gtk_frame_new (_("Bevel Edges")); gtk_frame_set_shadow_type (GTK_FRAME (frame), GTK_SHADOW_ETCHED_IN); gtk_box_pack_start (GTK_BOX (main_vbox), frame, FALSE, FALSE, 0); table = gtk_table_new (2, 3, FALSE); gtk_table_set_col_spacings (GTK_TABLE (table), 4); gtk_table_set_row_spacings (GTK_TABLE (table), 2); gtk_container_set_border_width (GTK_CONTAINER (table), 4); gtk_container_add (GTK_CONTAINER (frame), table); /* number of blending lines */ adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 0, _("Bevel Width:"), SCALE_WIDTH, 0, config.blend_lines, MIN_BLEND_LINES, MAX_BLEND_LINES, 1.0, 2.0, 0, TRUE, 0, 0, _("Degree of slope of each piece's edge"), NULL); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (gimp_int_adjustment_update), &config.blend_lines); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (jigsaw), NULL); /* blending amount */ adj = gimp_scale_entry_new (GTK_TABLE (table), 0, 1, _("Highlight:"), SCALE_WIDTH, 0, config.blend_amount, MIN_BLEND_AMOUNT, MAX_BLEND_AMOUNT, 0.05, 0.1, 2, TRUE, 0, 0, _("The amount of highlighting on the edges " "of each piece"), NULL); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (gimp_double_adjustment_update), &config.blend_amount); gtk_signal_connect (GTK_OBJECT (adj), "value_changed", GTK_SIGNAL_FUNC (jigsaw), NULL); gtk_widget_show (table); gtk_widget_show (frame); /* frame for primitive radio buttons */ hbox = gtk_hbox_new (FALSE, 6); gtk_box_pack_start (GTK_BOX (main_vbox), hbox, FALSE, FALSE, 0); frame = gimp_radio_group_new2 (TRUE, _("Jigsaw Style"), G_CALLBACK (jigsaw_radio_button_update), &config.style, (gpointer) config.style, _("Square"), (gpointer) BEZIER_1, &rbutton1, _("Curved"), (gpointer) BEZIER_2, &rbutton2, NULL); gimp_help_set_help_data (rbutton1, _("Each piece has straight sides"), NULL); gimp_help_set_help_data (rbutton2, _("Each piece has curved sides"), NULL); gtk_box_pack_start (GTK_BOX (hbox), frame, TRUE, TRUE, 0); gtk_widget_show (frame); table = gtk_table_new (1, 2, FALSE); gtk_box_pack_start (GTK_BOX (hbox), table, TRUE, TRUE, 0); cbutton = gtk_check_button_new_with_label (_("Disable Tooltips")); gtk_toggle_button_set_active (GTK_TOGGLE_BUTTON (cbutton), globals.tooltips ? FALSE : TRUE); gtk_signal_connect (GTK_OBJECT (cbutton), "toggled", GTK_SIGNAL_FUNC (check_button_callback), NULL); gtk_table_attach (GTK_TABLE (table), cbutton, 0, 1, 1, 2, 0, 0, 0, 20); gtk_widget_show (cbutton); gimp_help_set_help_data (cbutton, _("Toggle Tooltips on/off"), NULL); gtk_widget_show (table); gtk_widget_show (hbox); gtk_widget_show (dlg); gtk_main (); gimp_help_free (); gdk_flush (); return; } /*************************************************** callbacks ***************************************************/ static void run_callback (GtkWidget *widget, gpointer data) { globals.dialog_result = 1; gtk_widget_destroy (GTK_WIDGET (data)); } static void check_button_callback (GtkWidget *widget, gpointer data) { if (GTK_TOGGLE_BUTTON (widget)->active) { gimp_help_disable_tooltips (); globals.tooltips = 0; } else { gimp_help_enable_tooltips (); globals.tooltips = 1; } } static void jigsaw_radio_button_update (GtkWidget *widget, gpointer data) { gimp_radio_button_update (widget, data); if (GTK_TOGGLE_BUTTON (widget)->active) jigsaw (TRUE); } /* preview library */ static GtkWidget * preview_widget (GimpDrawable *drawable) { gint size; GtkWidget *preview; preview = gtk_preview_new (GTK_PREVIEW_COLOR); fill_preview_with_thumb (preview, drawable->drawable_id); size = GTK_PREVIEW (preview)->rowstride * GTK_PREVIEW (preview)->buffer_height; preview_bits = g_malloc (size); memcpy (preview_bits, GTK_PREVIEW (preview)->buffer, size); return preview; } static void fill_preview_with_thumb (GtkWidget *widget, gint32 drawable_ID) { guchar *drawable_data; gint bpp; gint x,y; gint width = PREVIEW_SIZE; gint height = PREVIEW_SIZE; guchar *src; gdouble r, g, b, a; gdouble c0, c1; guchar *p0, *p1; guchar *even, *odd; bpp = 0; /* Only returned */ drawable_data = gimp_drawable_get_thumbnail_data (drawable_ID, &width, &height, &bpp); if (width < 1 || height < 1) return; gtk_preview_size (GTK_PREVIEW (widget), width, height); even = g_malloc (width * 3); odd = g_malloc (width * 3); src = drawable_data; for (y = 0; y < height; y++) { p0 = even; p1 = odd; for (x = 0; x < width; x++) { if (bpp == 4) { r = ((gdouble)src[x*4+0]) / 255.0; g = ((gdouble)src[x*4+1]) / 255.0; b = ((gdouble)src[x*4+2]) / 255.0; a = ((gdouble)src[x*4+3]) / 255.0; } else if (bpp == 3) { r = ((gdouble)src[x*3+0]) / 255.0; g = ((gdouble)src[x*3+1]) / 255.0; b = ((gdouble)src[x*3+2]) / 255.0; a = 1.0; } else { r = ((gdouble)src[x*bpp+0]) / 255.0; g = b = r; if (bpp == 2) a = ((gdouble)src[x*bpp+1]) / 255.0; else a = 1.0; } if ((x / GIMP_CHECK_SIZE_SM) & 1) { c0 = GIMP_CHECK_LIGHT; c1 = GIMP_CHECK_DARK; } else { c0 = GIMP_CHECK_DARK; c1 = GIMP_CHECK_LIGHT; } *p0++ = (c0 + (r - c0) * a) * 255.0; *p0++ = (c0 + (g - c0) * a) * 255.0; *p0++ = (c0 + (b - c0) * a) * 255.0; *p1++ = (c1 + (r - c1) * a) * 255.0; *p1++ = (c1 + (g - c1) * a) * 255.0; *p1++ = (c1 + (b - c1) * a) * 255.0; } /* for */ if ((y / GIMP_CHECK_SIZE_SM) & 1) gtk_preview_draw_row (GTK_PREVIEW (widget), (guchar *)odd, 0, y, width); else gtk_preview_draw_row (GTK_PREVIEW (widget), (guchar *)even, 0, y, width); src += width * bpp; } g_free (even); g_free (odd); g_free (drawable_data); }