/* * Copyright © 2012 Red Hat Inc. * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library. If not, see . * * Authors: Benjamin Otte */ #include "config.h" #include "gtkcssimagelinearprivate.h" #include #include "gtkcsscolorvalueprivate.h" #include "gtkcssnumbervalueprivate.h" #include "gtkcssrgbavalueprivate.h" #include "gtkcssprovider.h" G_DEFINE_TYPE (GtkCssImageLinear, _gtk_css_image_linear, GTK_TYPE_CSS_IMAGE) static void gtk_css_image_linear_get_start_end (GtkCssImageLinear *linear, double length, double *start, double *end) { GtkCssImageLinearColorStop *stop; double pos; guint i; if (linear->repeating) { stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, 0); if (stop->offset == NULL) *start = 0; else *start = _gtk_css_number_value_get (stop->offset, length) / length; *end = *start; for (i = 0; i < linear->stops->len; i++) { stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, i); if (stop->offset == NULL) continue; pos = _gtk_css_number_value_get (stop->offset, length) / length; *end = MAX (pos, *end); } if (stop->offset == NULL) *end = MAX (*end, 1.0); } else { *start = 0; *end = 1; } } static void gtk_css_image_linear_compute_start_point (double angle_in_degrees, double width, double height, double *x, double *y) { double angle, c, slope, perpendicular; angle = fmod (angle_in_degrees, 360); if (angle < 0) angle += 360; if (angle == 0) { *x = 0; *y = -height; return; } else if (angle == 90) { *x = width; *y = 0; return; } else if (angle == 180) { *x = 0; *y = height; return; } else if (angle == 270) { *x = -width; *y = 0; return; } /* The tan() is confusing because the angle is clockwise * from 'to top' */ perpendicular = tan (angle * G_PI / 180); slope = -1 / perpendicular; if (angle > 180) width = - width; if (angle < 90 || angle > 270) height = - height; /* Compute c (of y = mx + c) of perpendicular */ c = height - perpendicular * width; *x = c / (slope - perpendicular); *y = perpendicular * *x + c; } static void gtk_css_image_linear_draw (GtkCssImage *image, cairo_t *cr, double width, double height) { GtkCssImageLinear *linear = GTK_CSS_IMAGE_LINEAR (image); cairo_pattern_t *pattern; double angle; /* actual angle of the gradiant line in degrees */ double x, y; /* coordinates of start point */ double length; /* distance in pixels for 100% */ double start, end; /* position of first/last point on gradient line - with gradient line being [0, 1] */ double offset; int i, last; if (_gtk_css_number_value_get_unit (linear->angle) == GTK_CSS_NUMBER) { guint side = _gtk_css_number_value_get (linear->angle, 100); /* special casing the regular cases here so we don't get rounding errors */ switch (side) { case 1 << GTK_CSS_RIGHT: angle = 90; break; case 1 << GTK_CSS_LEFT: angle = 270; break; case 1 << GTK_CSS_TOP: angle = 0; break; case 1 << GTK_CSS_BOTTOM: angle = 180; break; default: angle = atan2 (side & 1 << GTK_CSS_TOP ? -width : width, side & 1 << GTK_CSS_LEFT ? -height : height); angle = 180 * angle / G_PI + 90; break; } } else { angle = _gtk_css_number_value_get (linear->angle, 100); } gtk_css_image_linear_compute_start_point (angle, width, height, &x, &y); length = sqrt (x * x + y * y); gtk_css_image_linear_get_start_end (linear, length, &start, &end); pattern = cairo_pattern_create_linear (x * (start - 0.5), y * (start - 0.5), x * (end - 0.5), y * (end - 0.5)); if (linear->repeating) cairo_pattern_set_extend (pattern, CAIRO_EXTEND_REPEAT); else cairo_pattern_set_extend (pattern, CAIRO_EXTEND_PAD); offset = start; last = -1; for (i = 0; i < linear->stops->len; i++) { GtkCssImageLinearColorStop *stop; double pos, step; stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, i); if (stop->offset == NULL) { if (i == 0) pos = 0.0; else if (i + 1 == linear->stops->len) pos = 1.0; else continue; } else pos = _gtk_css_number_value_get (stop->offset, length) / length; pos = MAX (pos, offset); step = (pos - offset) / (i - last); for (last = last + 1; last <= i; last++) { const GdkRGBA *rgba; stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, last); rgba = _gtk_css_rgba_value_get_rgba (stop->color); offset += step; cairo_pattern_add_color_stop_rgba (pattern, (offset - start) / (end - start), rgba->red, rgba->green, rgba->blue, rgba->alpha); } offset = pos; last = i; } cairo_rectangle (cr, 0, 0, width, height); cairo_translate (cr, width / 2, height / 2); cairo_set_source (cr, pattern); cairo_fill (cr); cairo_pattern_destroy (pattern); } static gboolean gtk_css_image_linear_parse (GtkCssImage *image, GtkCssParser *parser) { GtkCssImageLinear *linear = GTK_CSS_IMAGE_LINEAR (image); guint i; if (_gtk_css_parser_try (parser, "repeating-linear-gradient(", TRUE)) linear->repeating = TRUE; else if (_gtk_css_parser_try (parser, "linear-gradient(", TRUE)) linear->repeating = FALSE; else { _gtk_css_parser_error (parser, "Not a linear gradient"); return FALSE; } if (_gtk_css_parser_try (parser, "to", TRUE)) { guint side = 0; for (i = 0; i < 2; i++) { if (_gtk_css_parser_try (parser, "left", TRUE)) { if (side & ((1 << GTK_CSS_LEFT) | (1 << GTK_CSS_RIGHT))) { _gtk_css_parser_error (parser, "Expected 'top', 'bottom' or comma"); return FALSE; } side |= (1 << GTK_CSS_LEFT); } else if (_gtk_css_parser_try (parser, "right", TRUE)) { if (side & ((1 << GTK_CSS_LEFT) | (1 << GTK_CSS_RIGHT))) { _gtk_css_parser_error (parser, "Expected 'top', 'bottom' or comma"); return FALSE; } side |= (1 << GTK_CSS_RIGHT); } else if (_gtk_css_parser_try (parser, "top", TRUE)) { if (side & ((1 << GTK_CSS_TOP) | (1 << GTK_CSS_BOTTOM))) { _gtk_css_parser_error (parser, "Expected 'left', 'right' or comma"); return FALSE; } side |= (1 << GTK_CSS_TOP); } else if (_gtk_css_parser_try (parser, "bottom", TRUE)) { if (side & ((1 << GTK_CSS_TOP) | (1 << GTK_CSS_BOTTOM))) { _gtk_css_parser_error (parser, "Expected 'left', 'right' or comma"); return FALSE; } side |= (1 << GTK_CSS_BOTTOM); } else break; } if (side == 0) { _gtk_css_parser_error (parser, "Expected side that gradient should go to"); return FALSE; } linear->angle = _gtk_css_number_value_new (side, GTK_CSS_NUMBER); if (!_gtk_css_parser_try (parser, ",", TRUE)) { _gtk_css_parser_error (parser, "Expected a comma"); return FALSE; } } else if (_gtk_css_parser_has_number (parser)) { linear->angle = _gtk_css_number_value_parse (parser, GTK_CSS_PARSE_ANGLE); if (linear->angle == NULL) return FALSE; if (!_gtk_css_parser_try (parser, ",", TRUE)) { _gtk_css_parser_error (parser, "Expected a comma"); return FALSE; } } else linear->angle = _gtk_css_number_value_new (1 << GTK_CSS_BOTTOM, GTK_CSS_NUMBER); do { GtkCssImageLinearColorStop stop; stop.color = _gtk_css_color_value_parse (parser); if (stop.color == NULL) return FALSE; if (_gtk_css_parser_has_number (parser)) { stop.offset = _gtk_css_number_value_parse (parser, GTK_CSS_PARSE_PERCENT | GTK_CSS_PARSE_LENGTH); if (stop.offset == NULL) { _gtk_css_value_unref (stop.color); return FALSE; } } else { stop.offset = NULL; } g_array_append_val (linear->stops, stop); } while (_gtk_css_parser_try (parser, ",", TRUE)); if (!_gtk_css_parser_try (parser, ")", TRUE)) { _gtk_css_parser_error (parser, "Missing closing bracket at end of linear gradient"); return FALSE; } return TRUE; } static void gtk_css_image_linear_print (GtkCssImage *image, GString *string) { GtkCssImageLinear *linear = GTK_CSS_IMAGE_LINEAR (image); guint i; if (linear->repeating) g_string_append (string, "repeating-linear-gradient("); else g_string_append (string, "linear-gradient("); if (_gtk_css_number_value_get_unit (linear->angle) == GTK_CSS_NUMBER) { guint side = _gtk_css_number_value_get (linear->angle, 100); if (side != (1 << GTK_CSS_BOTTOM)) { g_string_append (string, "to"); if (side & (1 << GTK_CSS_TOP)) g_string_append (string, " top"); else if (side & (1 << GTK_CSS_BOTTOM)) g_string_append (string, " bottom"); if (side & (1 << GTK_CSS_LEFT)) g_string_append (string, " left"); else if (side & (1 << GTK_CSS_RIGHT)) g_string_append (string, " right"); g_string_append (string, ", "); } } else { _gtk_css_value_print (linear->angle, string); g_string_append (string, ", "); } for (i = 0; i < linear->stops->len; i++) { GtkCssImageLinearColorStop *stop; if (i > 0) g_string_append (string, ", "); stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, i); _gtk_css_value_print (stop->color, string); if (stop->offset) { g_string_append (string, " "); _gtk_css_value_print (stop->offset, string); } } g_string_append (string, ")"); } static GtkCssImage * gtk_css_image_linear_compute (GtkCssImage *image, guint property_id, GtkStyleProviderPrivate *provider, GtkCssStyle *style, GtkCssStyle *parent_style) { GtkCssImageLinear *linear = GTK_CSS_IMAGE_LINEAR (image); GtkCssImageLinear *copy; guint i; copy = g_object_new (GTK_TYPE_CSS_IMAGE_LINEAR, NULL); copy->repeating = linear->repeating; copy->angle = _gtk_css_value_compute (linear->angle, property_id, provider, style, parent_style); g_array_set_size (copy->stops, linear->stops->len); for (i = 0; i < linear->stops->len; i++) { GtkCssImageLinearColorStop *stop, *scopy; stop = &g_array_index (linear->stops, GtkCssImageLinearColorStop, i); scopy = &g_array_index (copy->stops, GtkCssImageLinearColorStop, i); scopy->color = _gtk_css_value_compute (stop->color, property_id, provider, style, parent_style); if (stop->offset) { scopy->offset = _gtk_css_value_compute (stop->offset, property_id, provider, style, parent_style); } else { scopy->offset = NULL; } } return GTK_CSS_IMAGE (copy); } static GtkCssImage * gtk_css_image_linear_transition (GtkCssImage *start_image, GtkCssImage *end_image, guint property_id, double progress) { GtkCssImageLinear *start, *end, *result; guint i; start = GTK_CSS_IMAGE_LINEAR (start_image); if (end_image == NULL) return GTK_CSS_IMAGE_CLASS (_gtk_css_image_linear_parent_class)->transition (start_image, end_image, property_id, progress); if (!GTK_IS_CSS_IMAGE_LINEAR (end_image)) return GTK_CSS_IMAGE_CLASS (_gtk_css_image_linear_parent_class)->transition (start_image, end_image, property_id, progress); end = GTK_CSS_IMAGE_LINEAR (end_image); if ((start->repeating != end->repeating) || (start->stops->len != end->stops->len)) return GTK_CSS_IMAGE_CLASS (_gtk_css_image_linear_parent_class)->transition (start_image, end_image, property_id, progress); result = g_object_new (GTK_TYPE_CSS_IMAGE_LINEAR, NULL); result->repeating = start->repeating; if (_gtk_css_number_value_get_unit (start->angle) == GTK_CSS_NUMBER || _gtk_css_number_value_get_unit (end->angle) == GTK_CSS_NUMBER) goto fail; result->angle = _gtk_css_value_transition (start->angle, end->angle, property_id, progress); if (result->angle == NULL) goto fail; for (i = 0; i < start->stops->len; i++) { GtkCssImageLinearColorStop stop, *start_stop, *end_stop; start_stop = &g_array_index (start->stops, GtkCssImageLinearColorStop, i); end_stop = &g_array_index (end->stops, GtkCssImageLinearColorStop, i); if ((start_stop->offset != NULL) != (end_stop->offset != NULL)) goto fail; if (start_stop->offset == NULL) { stop.offset = NULL; } else { stop.offset = _gtk_css_value_transition (start_stop->offset, end_stop->offset, property_id, progress); if (stop.offset == NULL) goto fail; } stop.color = _gtk_css_value_transition (start_stop->color, end_stop->color, property_id, progress); if (stop.color == NULL) { if (stop.offset) _gtk_css_value_unref (stop.offset); goto fail; } g_array_append_val (result->stops, stop); } return GTK_CSS_IMAGE (result); fail: g_object_unref (result); return GTK_CSS_IMAGE_CLASS (_gtk_css_image_linear_parent_class)->transition (start_image, end_image, property_id, progress); } static gboolean gtk_css_image_linear_equal (GtkCssImage *image1, GtkCssImage *image2) { GtkCssImageLinear *linear1 = GTK_CSS_IMAGE_LINEAR (image1); GtkCssImageLinear *linear2 = GTK_CSS_IMAGE_LINEAR (image2); guint i; if (linear1->repeating != linear2->repeating || !_gtk_css_value_equal (linear1->angle, linear2->angle) || linear1->stops->len != linear2->stops->len) return FALSE; for (i = 0; i < linear1->stops->len; i++) { GtkCssImageLinearColorStop *stop1, *stop2; stop1 = &g_array_index (linear1->stops, GtkCssImageLinearColorStop, i); stop2 = &g_array_index (linear2->stops, GtkCssImageLinearColorStop, i); if (!_gtk_css_value_equal0 (stop1->offset, stop2->offset) || !_gtk_css_value_equal (stop1->color, stop2->color)) return FALSE; } return TRUE; } static void gtk_css_image_linear_dispose (GObject *object) { GtkCssImageLinear *linear = GTK_CSS_IMAGE_LINEAR (object); if (linear->stops) { g_array_free (linear->stops, TRUE); linear->stops = NULL; } if (linear->angle) { _gtk_css_value_unref (linear->angle); linear->angle = NULL; } G_OBJECT_CLASS (_gtk_css_image_linear_parent_class)->dispose (object); } static void _gtk_css_image_linear_class_init (GtkCssImageLinearClass *klass) { GtkCssImageClass *image_class = GTK_CSS_IMAGE_CLASS (klass); GObjectClass *object_class = G_OBJECT_CLASS (klass); image_class->draw = gtk_css_image_linear_draw; image_class->parse = gtk_css_image_linear_parse; image_class->print = gtk_css_image_linear_print; image_class->compute = gtk_css_image_linear_compute; image_class->equal = gtk_css_image_linear_equal; image_class->transition = gtk_css_image_linear_transition; object_class->dispose = gtk_css_image_linear_dispose; } static void gtk_css_image_clear_color_stop (gpointer color_stop) { GtkCssImageLinearColorStop *stop = color_stop; _gtk_css_value_unref (stop->color); if (stop->offset) _gtk_css_value_unref (stop->offset); } static void _gtk_css_image_linear_init (GtkCssImageLinear *linear) { linear->stops = g_array_new (FALSE, FALSE, sizeof (GtkCssImageLinearColorStop)); g_array_set_clear_func (linear->stops, gtk_css_image_clear_color_stop); }