mirror of https://github.com/GNOME/gimp.git
538 lines
15 KiB
C
538 lines
15 KiB
C
/* GIMP - The GNU Image Manipulation Program
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* Copyright (C) 1995 Spencer Kimball and Peter Mattis
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*
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* IfsCompose is a interface for creating IFS fractals by
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* direct manipulation.
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* Copyright (C) 1997 Owen Taylor
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*
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTBILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include "config.h"
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#include <string.h> /* strlen */
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#include <gdk/gdk.h>
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#include <libgimp/gimp.h>
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#include "ifs-compose.h"
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typedef enum {
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TOKEN_INVALID = G_TOKEN_LAST,
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TOKEN_ITERATIONS,
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TOKEN_MAX_MEMORY,
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TOKEN_SUBDIVIDE,
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TOKEN_RADIUS,
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TOKEN_ASPECT_RATIO,
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TOKEN_CENTER_X,
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TOKEN_CENTER_Y,
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TOKEN_ELEMENT,
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TOKEN_X,
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TOKEN_Y,
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TOKEN_THETA,
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TOKEN_SCALE,
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TOKEN_ASYM,
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TOKEN_SHEAR,
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TOKEN_FLIP,
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TOKEN_RED_COLOR,
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TOKEN_GREEN_COLOR,
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TOKEN_BLUE_COLOR,
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TOKEN_BLACK_COLOR,
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TOKEN_TARGET_COLOR,
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TOKEN_HUE_SCALE,
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TOKEN_VALUE_SCALE,
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TOKEN_SIMPLE_COLOR,
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TOKEN_PROB
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} IfsComposeToken;
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static struct
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{
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const gchar *name;
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IfsComposeToken token;
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} symbols[] = {
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{ "iterations", TOKEN_ITERATIONS },
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{ "max_memory", TOKEN_MAX_MEMORY },
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{ "subdivide", TOKEN_SUBDIVIDE },
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{ "radius", TOKEN_RADIUS },
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{ "aspect_ratio", TOKEN_ASPECT_RATIO },
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{ "center_x", TOKEN_CENTER_X },
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{ "center_y", TOKEN_CENTER_Y },
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{ "element", TOKEN_ELEMENT },
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{ "x", TOKEN_X },
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{ "y", TOKEN_Y },
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{ "theta", TOKEN_THETA },
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{ "scale", TOKEN_SCALE },
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{ "asym", TOKEN_ASYM },
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{ "shear", TOKEN_SHEAR },
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{ "flip", TOKEN_FLIP },
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{ "red_color", TOKEN_RED_COLOR },
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{ "green_color", TOKEN_GREEN_COLOR },
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{ "blue_color", TOKEN_BLUE_COLOR },
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{ "black_color", TOKEN_BLACK_COLOR },
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{ "target_color", TOKEN_TARGET_COLOR },
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{ "hue_scale", TOKEN_HUE_SCALE },
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{ "value_scale", TOKEN_VALUE_SCALE },
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{ "simple_color", TOKEN_SIMPLE_COLOR },
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{ "prob", TOKEN_PROB }
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};
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static GTokenType
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ifsvals_parse_color (GScanner *scanner,
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GimpRGB *result)
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{
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GTokenType token;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_LEFT_CURLY)
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return G_TOKEN_LEFT_CURLY;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_FLOAT)
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return G_TOKEN_FLOAT;
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result->r = scanner->value.v_float;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_COMMA)
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return G_TOKEN_COMMA;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_FLOAT)
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return G_TOKEN_FLOAT;
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result->g = scanner->value.v_float;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_COMMA)
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return G_TOKEN_COMMA;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_FLOAT)
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return G_TOKEN_FLOAT;
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result->b = scanner->value.v_float;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_RIGHT_CURLY)
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return G_TOKEN_RIGHT_CURLY;
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return G_TOKEN_NONE;
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}
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/* Parse a float which (unlike G_TOKEN_FLOAT) can be negative
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*/
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static GTokenType
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parse_genuine_float (GScanner *scanner,
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gdouble *result)
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{
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gboolean negate = FALSE;
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GTokenType token;
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token = g_scanner_get_next_token (scanner);
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if (token == '-')
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{
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negate = TRUE;
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token = g_scanner_get_next_token (scanner);
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}
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if (token == G_TOKEN_FLOAT)
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{
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*result = negate ? -scanner->value.v_float : scanner->value.v_float;
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return G_TOKEN_NONE;
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}
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else
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return G_TOKEN_FLOAT;
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}
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static GTokenType
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ifsvals_parse_element (GScanner *scanner,
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AffElementVals *result)
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{
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GTokenType token;
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GTokenType expected_token;
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_LEFT_CURLY)
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return G_TOKEN_LEFT_CURLY;
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token = g_scanner_get_next_token (scanner);
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while (token != G_TOKEN_RIGHT_CURLY)
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{
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switch ((IfsComposeToken) token)
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{
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case TOKEN_X:
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expected_token = parse_genuine_float (scanner, &result->x);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_Y:
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expected_token = parse_genuine_float (scanner, &result->y);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_THETA:
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expected_token = parse_genuine_float (scanner, &result->theta);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_SCALE:
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expected_token = parse_genuine_float (scanner, &result->scale);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_ASYM:
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expected_token = parse_genuine_float (scanner, &result->asym);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_SHEAR:
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expected_token = parse_genuine_float (scanner, &result->shear);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_FLIP:
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_INT)
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return G_TOKEN_INT;
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result->flip = scanner->value.v_int;
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break;
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case TOKEN_RED_COLOR:
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token = ifsvals_parse_color (scanner, &result->red_color);
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if (token != G_TOKEN_NONE)
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return token;
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break;
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case TOKEN_GREEN_COLOR:
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token = ifsvals_parse_color (scanner, &result->green_color);
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if (token != G_TOKEN_NONE)
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return token;
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break;
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case TOKEN_BLUE_COLOR:
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token = ifsvals_parse_color (scanner, &result->blue_color);
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if (token != G_TOKEN_NONE)
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return token;
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break;
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case TOKEN_BLACK_COLOR:
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token = ifsvals_parse_color (scanner, &result->black_color);
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if (token != G_TOKEN_NONE)
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return token;
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break;
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case TOKEN_TARGET_COLOR:
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token = ifsvals_parse_color (scanner, &result->target_color);
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if (token != G_TOKEN_NONE)
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return token;
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break;
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case TOKEN_HUE_SCALE:
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expected_token = parse_genuine_float (scanner, &result->hue_scale);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_VALUE_SCALE:
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expected_token = parse_genuine_float (scanner, &result->value_scale);
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if (expected_token != G_TOKEN_NONE)
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return expected_token;
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break;
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case TOKEN_SIMPLE_COLOR:
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_INT)
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return G_TOKEN_INT;
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result->simple_color = scanner->value.v_int;
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break;
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case TOKEN_PROB:
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token = g_scanner_get_next_token (scanner);
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if (token != G_TOKEN_FLOAT)
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return G_TOKEN_FLOAT;
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result->prob = scanner->value.v_float;
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break;
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default:
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return G_TOKEN_SYMBOL;
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}
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token = g_scanner_get_next_token (scanner);
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}
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return G_TOKEN_NONE;
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}
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/*************************************************************
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* ifsvals_parse:
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* Read in ifsvalues from a GScanner
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* arguments:
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* scanner:
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* vals:
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* elements:
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*
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* results:
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* If parsing succeeded, TRUE; otherwise FALSE, in which
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* case vals and elements are unchanged
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*************************************************************/
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static gboolean
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ifsvals_parse (GScanner *scanner,
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IfsComposeVals *vals,
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AffElement ***elements)
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{
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GTokenType token, expected_token;
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AffElement *el;
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IfsComposeVals new_vals;
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GimpRGB color;
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GList *el_list = NULL;
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GList *tmp_list;
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gint i;
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new_vals = *vals;
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new_vals.num_elements = 0;
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i = 0;
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expected_token = G_TOKEN_NONE;
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while (expected_token == G_TOKEN_NONE)
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{
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token = g_scanner_get_next_token (scanner);
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if (g_scanner_eof (scanner))
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break;
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switch ((IfsComposeToken) token)
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{
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case TOKEN_ITERATIONS:
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token = g_scanner_get_next_token (scanner);
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if (token == G_TOKEN_INT)
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new_vals.iterations = scanner->value.v_int;
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else
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expected_token = G_TOKEN_INT;
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break;
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case TOKEN_MAX_MEMORY:
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token = g_scanner_get_next_token (scanner);
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if (token == G_TOKEN_INT)
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new_vals.max_memory = scanner->value.v_int;
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else
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expected_token = G_TOKEN_INT;
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break;
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case TOKEN_SUBDIVIDE:
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token = g_scanner_get_next_token (scanner);
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if (token == G_TOKEN_INT)
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new_vals.subdivide = scanner->value.v_int;
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else
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expected_token = G_TOKEN_INT;
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break;
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case TOKEN_RADIUS:
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expected_token = parse_genuine_float (scanner, &new_vals.radius);
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break;
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case TOKEN_ASPECT_RATIO:
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expected_token = parse_genuine_float (scanner, &new_vals.aspect_ratio);
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break;
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case TOKEN_CENTER_X:
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expected_token = parse_genuine_float (scanner, &new_vals.center_x);
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break;
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case TOKEN_CENTER_Y:
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expected_token = parse_genuine_float (scanner, &new_vals.center_y);
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break;
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case TOKEN_ELEMENT:
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el = aff_element_new (0.0,0.0, &color, ++i);
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expected_token = ifsvals_parse_element (scanner, &el->v);
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if (expected_token == G_TOKEN_NONE)
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{
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el_list = g_list_prepend (el_list, el);
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new_vals.num_elements++;
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}
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else
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aff_element_free (el);
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break;
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default:
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expected_token = G_TOKEN_SYMBOL;
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}
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}
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if (expected_token != G_TOKEN_NONE)
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{
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g_scanner_unexp_token (scanner,
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expected_token,
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NULL,
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NULL,
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NULL,
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"using default values...",
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TRUE);
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g_list_free_full (el_list, (GDestroyNotify) g_free);
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return FALSE;
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}
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*vals = new_vals;
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el_list = g_list_reverse (el_list);
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*elements = g_new (AffElement *, new_vals.num_elements);
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tmp_list = el_list;
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for (i=0; i<new_vals.num_elements; i++)
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{
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(*elements)[i] = tmp_list->data;
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tmp_list = tmp_list->next;
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}
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g_list_free (el_list);
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return TRUE;
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}
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gboolean
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ifsvals_parse_string (const gchar *str,
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IfsComposeVals *vals,
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AffElement ***elements)
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{
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GScanner *scanner = g_scanner_new (NULL);
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gboolean result;
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gint i;
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scanner->config->symbol_2_token = TRUE;
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scanner->config->scan_identifier_1char = TRUE;
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scanner->input_name = "IfsCompose Saved Data";
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for (i = 0; i < G_N_ELEMENTS (symbols); i++)
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g_scanner_scope_add_symbol (scanner, 0,
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symbols[i].name,
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GINT_TO_POINTER (symbols[i].token));
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g_scanner_input_text (scanner, str, strlen (str));
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result = ifsvals_parse (scanner, vals, elements);
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g_scanner_destroy (scanner);
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return result;
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}
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/*************************************************************
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* ifsvals_stringify:
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* Stringify a set of vals and elements
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* arguments:
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* vals:
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* elements
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* results:
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* The stringified result (free with g_free)
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*************************************************************/
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gchar *
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ifsvals_stringify (IfsComposeVals *vals,
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AffElement **elements)
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{
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gint i;
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gchar buf[G_ASCII_DTOSTR_BUF_SIZE];
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gchar cbuf[3][G_ASCII_DTOSTR_BUF_SIZE];
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GString *result;
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result = g_string_new (NULL);
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g_string_append_printf (result, "iterations %d\n", vals->iterations);
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g_string_append_printf (result, "max_memory %d\n", vals->max_memory);
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g_string_append_printf (result, "subdivide %d\n", vals->subdivide);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", vals->radius);
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g_string_append_printf (result, "radius %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", vals->aspect_ratio);
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g_string_append_printf (result, "aspect_ratio %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", vals->center_x);
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g_string_append_printf (result, "center_x %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", vals->center_y);
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g_string_append_printf (result, "center_y %s\n", buf);
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for (i=0; i<vals->num_elements; i++)
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{
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g_string_append (result, "element {\n");
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.x);
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g_string_append_printf (result, " x %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.y);
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g_string_append_printf (result, " y %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.theta);
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g_string_append_printf (result, " theta %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.scale);
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g_string_append_printf (result, " scale %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.asym);
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g_string_append_printf (result, " asym %s\n", buf);
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g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.shear);
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g_string_append_printf (result, " shear %s\n", buf);
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g_string_append_printf (result, " flip %d\n", elements[i]->v.flip);
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g_ascii_formatd (cbuf[0], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.red_color.r);
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g_ascii_formatd (cbuf[1], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.red_color.g);
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g_ascii_formatd (cbuf[2], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.red_color.b);
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g_string_append_printf (result, " red_color { %s,%s,%s }\n",
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cbuf[0], cbuf[1], cbuf[2]);
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g_ascii_formatd (cbuf[0], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.green_color.r);
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g_ascii_formatd (cbuf[1], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.green_color.g);
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g_ascii_formatd (cbuf[2], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.green_color.b);
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|
g_string_append_printf (result, " green_color { %s,%s,%s }\n",
|
|
cbuf[0], cbuf[1], cbuf[2]);
|
|
|
|
g_ascii_formatd (cbuf[0], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.blue_color.r);
|
|
g_ascii_formatd (cbuf[1], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.blue_color.g);
|
|
g_ascii_formatd (cbuf[2], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.blue_color.b);
|
|
g_string_append_printf (result, " blue_color { %s,%s,%s }\n",
|
|
cbuf[0], cbuf[1], cbuf[2]);
|
|
|
|
g_ascii_formatd (cbuf[0], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.black_color.r);
|
|
g_ascii_formatd (cbuf[1], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.black_color.g);
|
|
g_ascii_formatd (cbuf[2], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.black_color.b);
|
|
g_string_append_printf (result, " black_color { %s,%s,%s }\n",
|
|
cbuf[0], cbuf[1], cbuf[2]);
|
|
|
|
g_ascii_formatd (cbuf[0], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.target_color.r);
|
|
g_ascii_formatd (cbuf[1], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.target_color.g);
|
|
g_ascii_formatd (cbuf[2], G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.target_color.b);
|
|
g_string_append_printf (result, " target_color { %s,%s,%s }\n",
|
|
cbuf[0], cbuf[1], cbuf[2]);
|
|
|
|
g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.hue_scale);
|
|
g_string_append_printf (result, " hue_scale %s\n", buf);
|
|
g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.value_scale);
|
|
g_string_append_printf (result, " value_scale %s\n", buf);
|
|
g_string_append_printf (result, " simple_color %d\n",
|
|
elements[i]->v.simple_color);
|
|
g_ascii_formatd (buf, G_ASCII_DTOSTR_BUF_SIZE, "%f", elements[i]->v.prob);
|
|
g_string_append_printf (result, " prob %s\n", buf);
|
|
g_string_append (result, "}\n");
|
|
}
|
|
|
|
return g_string_free (result, FALSE);
|
|
}
|