index 5cd5df143fe19667f9d61ee3fc10bc19e7758207..f6d3b030958859530d3f96b19157a2ab91df44fd 100644 (file)
Inkscape::XML::Node *repr = inkscape_get_repr(INKSCAPE, prefs_path);
gchar c[32];
Inkscape::XML::Node *repr = inkscape_get_repr(INKSCAPE, prefs_path);
gchar c[32];
- sp_svg_write_color(c, 32, rgba);
+ sp_svg_write_color(c, sizeof(c), rgba);
repr->setAttribute("initial_color", c);
is_updating = false;
repr->setAttribute("initial_color", c);
is_updating = false;
NR::Matrix flip_x = NR::translate(-cx, -cy) * NR::scale (-1, 1) * NR::translate(cx, cy);
NR::Matrix flip_y = NR::translate(-cx, -cy) * NR::scale (1, -1) * NR::translate(cx, cy);
NR::Matrix flip_x = NR::translate(-cx, -cy) * NR::scale (-1, 1) * NR::translate(cx, cy);
NR::Matrix flip_y = NR::translate(-cx, -cy) * NR::scale (1, -1) * NR::translate(cx, cy);
- x = (int) pow ((double) x, d_per_x_exp);
- y = (int) pow ((double) y, d_per_y_exp);
-
switch (type) {
case TILE_P1:
switch (type) {
case TILE_P1:
case TILE_P4:
{
case TILE_P4:
{
- NR::Matrix ori (NR::translate ((w + h) * (x/2) + dx, (h + w) * (y/2) + dy));
+ NR::Matrix ori (NR::translate ((w + h) * pow((x/2), d_per_x_exp) + dx, (h + w) * pow((y/2), d_per_y_exp) + dy));
NR::Matrix dia1 (NR::translate (w/2 + h/2, -h/2 + w/2));
NR::Matrix dia2 (NR::translate (-w/2 + h/2, h/2 + w/2));
if (y % 2 == 0) {
NR::Matrix dia1 (NR::translate (w/2 + h/2, -h/2 + w/2));
NR::Matrix dia2 (NR::translate (-w/2 + h/2, h/2 + w/2));
if (y % 2 == 0) {
case TILE_P4M:
{
double max = MAX(w, h);
case TILE_P4M:
{
double max = MAX(w, h);
- NR::Matrix ori (NR::translate ((max + max) * (x/4) + dx, (max + max) * (y/2) + dy));
+ NR::Matrix ori (NR::translate ((max + max) * pow((x/4), d_per_x_exp) + dx, (max + max) * pow((y/2), d_per_y_exp) + dy));
NR::Matrix dia1 (NR::translate (w/2 - h/2, h/2 - w/2));
NR::Matrix dia2 (NR::translate (-h/2 + w/2, w/2 - h/2));
if (y % 2 == 0) {
NR::Matrix dia1 (NR::translate (w/2 - h/2, h/2 - w/2));
NR::Matrix dia2 (NR::translate (-h/2 + w/2, w/2 - h/2));
if (y % 2 == 0) {
case TILE_P4G:
{
double max = MAX(w, h);
case TILE_P4G:
{
double max = MAX(w, h);
- NR::Matrix ori (NR::translate ((max + max) * (x/4) + dx, (max + max) * y + dy));
+ NR::Matrix ori (NR::translate ((max + max) * pow((x/4), d_per_x_exp) + dx, (max + max) * pow(y, d_per_y_exp) + dy));
NR::Matrix dia1 (NR::translate (w/2 + h/2, h/2 - w/2));
NR::Matrix dia2 (NR::translate (-h/2 + w/2, w/2 + h/2));
if (((x/4) + y) % 2 == 0) {
NR::Matrix dia1 (NR::translate (w/2 + h/2, h/2 - w/2));
NR::Matrix dia2 (NR::translate (-h/2 + w/2, w/2 + h/2));
if (((x/4) + y) % 2 == 0) {
dia1 = NR::Matrix (NR::translate (h/2 * cos30, -(h/2 * sin30)));
dia2 = dia1 * NR::Matrix (NR::translate (0, h/2));
}
dia1 = NR::Matrix (NR::translate (h/2 * cos30, -(h/2 * sin30)));
dia2 = dia1 * NR::Matrix (NR::translate (0, h/2));
}
- NR::Matrix ori (NR::translate (width * (2*(x/3) + y%2) + dx, (height/2) * y + dy));
+ NR::Matrix ori (NR::translate (width * pow((2*(x/3) + y%2), d_per_x_exp) + dx, (height/2) * pow(y, d_per_y_exp) + dy));
if (x % 3 == 0) {
return d_s_r * ori;
} else if (x % 3 == 1) {
if (x % 3 == 0) {
return d_s_r * ori;
} else if (x % 3 == 1) {
NR::Matrix dia3;
NR::Matrix dia4;
if (w > h) {
NR::Matrix dia3;
NR::Matrix dia4;
if (w > h) {
- ori = NR::Matrix(NR::translate (w * (x/6) + w/2 * (y%2) + dx, (w * cos30) * y + dy));
+ ori = NR::Matrix(NR::translate (w * pow((x/6) + 1/2 * (y%2), d_per_x_exp) + dx, (w * cos30) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (0, h/2) * NR::translate (w/2, 0) * NR::translate (w/2 * cos60, -w/2 * sin60) * NR::translate (-h/2 * cos30, -h/2 * sin30) );
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (0, 2 * (w/2 * sin60 - h/2 * sin30)));
dia4 = dia3 * NR::Matrix (NR::translate (-h * cos30, h * sin30));
} else {
dia1 = NR::Matrix (NR::translate (0, h/2) * NR::translate (w/2, 0) * NR::translate (w/2 * cos60, -w/2 * sin60) * NR::translate (-h/2 * cos30, -h/2 * sin30) );
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (0, 2 * (w/2 * sin60 - h/2 * sin30)));
dia4 = dia3 * NR::Matrix (NR::translate (-h * cos30, h * sin30));
} else {
- ori = NR::Matrix (NR::translate (2*h * cos30 * (x/6 + 0.5*(y%2)) + dx, (2*h - h * sin30) * y + dy));
+ ori = NR::Matrix (NR::translate (2*h * cos30 * pow((x/6 + 0.5*(y%2)), d_per_x_exp) + dx, (2*h - h * sin30) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (0, -h/2) * NR::translate (h/2 * cos30, h/2 * sin30));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (0, h/2));
dia1 = NR::Matrix (NR::translate (0, -h/2) * NR::translate (h/2 * cos30, h/2 * sin30));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (0, h/2));
dia3 = dia2 * NR::Matrix (NR::translate (0, h/2));
dia4 = dia3 * NR::Matrix (NR::translate (-h * cos30, h * sin30));
}
dia3 = dia2 * NR::Matrix (NR::translate (0, h/2));
dia4 = dia3 * NR::Matrix (NR::translate (-h * cos30, h * sin30));
}
- NR::Matrix ori (NR::translate (width * (2*(x/6) + y%2) + dx, (height/2) * y + dy));
+ NR::Matrix ori (NR::translate (width * pow((2*(x/6) + y%2), d_per_x_exp) + dx, (height/2) * pow(y, d_per_y_exp) + dy));
if (x % 6 == 0) {
return d_s_r * ori;
} else if (x % 6 == 1) {
if (x % 6 == 0) {
return d_s_r * ori;
} else if (x % 6 == 1) {
NR::Matrix dia4;
NR::Matrix dia5;
if (w > h) {
NR::Matrix dia4;
NR::Matrix dia5;
if (w > h) {
- ori = NR::Matrix(NR::translate (2*w * (x/6) + w * (y%2) + dx, (2*w * sin60) * y + dy));
+ ori = NR::Matrix(NR::translate (w * pow((2*(x/6) + (y%2)), d_per_x_exp) + dx, (2*w * sin60) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (w/2 * cos60, -w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (w/2, 0));
dia3 = dia2 * NR::Matrix (NR::translate (w/2 * cos60, w/2 * sin60));
dia4 = dia3 * NR::Matrix (NR::translate (-w/2 * cos60, w/2 * sin60));
dia5 = dia4 * NR::Matrix (NR::translate (-w/2, 0));
} else {
dia1 = NR::Matrix (NR::translate (w/2 * cos60, -w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (w/2, 0));
dia3 = dia2 * NR::Matrix (NR::translate (w/2 * cos60, w/2 * sin60));
dia4 = dia3 * NR::Matrix (NR::translate (-w/2 * cos60, w/2 * sin60));
dia5 = dia4 * NR::Matrix (NR::translate (-w/2, 0));
} else {
- ori = NR::Matrix(NR::translate (2*h * cos30 * (x/6 + 0.5*(y%2)) + dx, (h + h * sin30) * y + dy));
+ ori = NR::Matrix(NR::translate (2*h * cos30 * pow((x/6 + 0.5*(y%2)), d_per_x_exp) + dx, (h + h * sin30) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (-w/2, -h/2) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (w/2 * cos60, w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (h/2 * cos30, h/2 * sin30) * NR::translate (-w/2 * cos60, w/2 * sin60));
dia3 = dia2 * NR::Matrix (NR::translate (w/2 * cos60, -w/2 * sin60) * NR::translate (h/2 * cos30, h/2 * sin30) * NR::translate (-w/2, h/2));
dia1 = NR::Matrix (NR::translate (-w/2, -h/2) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (w/2 * cos60, w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (h/2 * cos30, h/2 * sin30) * NR::translate (-w/2 * cos60, w/2 * sin60));
dia3 = dia2 * NR::Matrix (NR::translate (w/2 * cos60, -w/2 * sin60) * NR::translate (h/2 * cos30, h/2 * sin30) * NR::translate (-w/2, h/2));
NR::Matrix ori;
NR::Matrix dia1, dia2, dia3, dia4, dia5, dia6, dia7, dia8, dia9, dia10;
if (w > h) {
NR::Matrix ori;
NR::Matrix dia1, dia2, dia3, dia4, dia5, dia6, dia7, dia8, dia9, dia10;
if (w > h) {
- ori = NR::Matrix(NR::translate (2*w * (x/12) + w * (y%2) + dx, (2*w * sin60) * y + dy));
+ ori = NR::Matrix(NR::translate (w * pow((2*(x/12) + (y%2)), d_per_x_exp) + dx, (2*w * sin60) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (w/2, h/2) * NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (-h/2 * cos30, h/2 * sin30));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, -h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (-h/2 * cos30, h/2 * sin30) * NR::translate (w * cos60, 0) * NR::translate (-h/2 * cos30, -h/2 * sin30));
dia1 = NR::Matrix (NR::translate (w/2, h/2) * NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (-h/2 * cos30, h/2 * sin30));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, -h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (-h/2 * cos30, h/2 * sin30) * NR::translate (w * cos60, 0) * NR::translate (-h/2 * cos30, -h/2 * sin30));
dia9 = dia6 * dia3.inverse();
dia10 = dia6 * dia4.inverse();
} else {
dia9 = dia6 * dia3.inverse();
dia10 = dia6 * dia4.inverse();
} else {
- ori = NR::Matrix(NR::translate (4*h * cos30 * (x/12 + 0.5*(y%2)) + dx, (2*h + 2*h * sin30) * y + dy));
+ ori = NR::Matrix(NR::translate (4*h * cos30 * pow((x/12 + 0.5*(y%2)), d_per_x_exp) + dx, (2*h + 2*h * sin30) * pow(y, d_per_y_exp) + dy));
dia1 = NR::Matrix (NR::translate (-w/2, -h/2) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (w/2 * cos60, w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, -h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (h * cos30, 0) * NR::translate (-w/2 * cos60, w/2 * sin60));
dia1 = NR::Matrix (NR::translate (-w/2, -h/2) * NR::translate (h/2 * cos30, -h/2 * sin30) * NR::translate (w/2 * cos60, w/2 * sin60));
dia2 = dia1 * NR::Matrix (NR::translate (h * cos30, -h * sin30));
dia3 = dia2 * NR::Matrix (NR::translate (-w/2 * cos60, -w/2 * sin60) * NR::translate (h * cos30, 0) * NR::translate (-w/2 * cos60, w/2 * sin60));
clonetiler_trace_setup (sp_desktop_document(desktop), 1.0, SP_ITEM (obj));
}
clonetiler_trace_setup (sp_desktop_document(desktop), 1.0, SP_ITEM (obj));
}
- NR::Point c;
+ NR::Point center;
double w;
double h;
double w;
double h;
+ double x0;
+ double y0;
if (keepbbox &&
obj_repr->attribute("inkscape:tile-w") &&
obj_repr->attribute("inkscape:tile-h") &&
if (keepbbox &&
obj_repr->attribute("inkscape:tile-w") &&
obj_repr->attribute("inkscape:tile-h") &&
+ obj_repr->attribute("inkscape:tile-x0") &&
+ obj_repr->attribute("inkscape:tile-y0") &&
obj_repr->attribute("inkscape:tile-cx") &&
obj_repr->attribute("inkscape:tile-cy")) {
double cx = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-cx", 0);
double cy = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-cy", 0);
obj_repr->attribute("inkscape:tile-cx") &&
obj_repr->attribute("inkscape:tile-cy")) {
double cx = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-cx", 0);
double cy = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-cy", 0);
-
- c = NR::Point (cx, cy);
+ center = NR::Point (cx, cy);
w = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-w", 0);
h = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-h", 0);
w = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-w", 0);
h = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-h", 0);
+ x0 = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-x0", 0);
+ y0 = sp_repr_get_double_attribute (obj_repr, "inkscape:tile-y0", 0);
} else {
} else {
- NR::Rect const r = SP_ITEM(obj)->invokeBbox(sp_item_i2doc_affine(SP_ITEM(obj)));
- c = r.midpoint();
- w = r.dimensions()[NR::X];
- h = r.dimensions()[NR::Y];
-
- sp_repr_set_svg_double(obj_repr, "inkscape:tile-w", w);
- sp_repr_set_svg_double(obj_repr, "inkscape:tile-h", h);
- sp_repr_set_svg_double(obj_repr, "inkscape:tile-cx", c[NR::X]);
- sp_repr_set_svg_double(obj_repr, "inkscape:tile-cy", c[NR::Y]);
+ NR::Maybe<NR::Rect> r = SP_ITEM(obj)->getBounds(sp_item_i2doc_affine(SP_ITEM(obj)),
+ SPItem::GEOMETRIC_BBOX);
+ /* impl: Use of GEOMETRIC_BBOX is so that the stroke of rectangles will be shared
+ * (overlapped) rather than effectively doubled in width.
+ *
+ * (If you wish to change this, then please consider discussing at bug #1722238.) */
+
+ if (r) {
+ w = r->dimensions()[NR::X];
+ h = r->dimensions()[NR::Y];
+ x0 = r->min()[NR::X];
+ y0 = r->min()[NR::Y];
+ center = desktop->dt2doc(SP_ITEM(obj)->getCenter());
+
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-cx", center[NR::X]);
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-cy", center[NR::Y]);
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-w", w);
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-h", h);
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-x0", x0);
+ sp_repr_set_svg_double(obj_repr, "inkscape:tile-y0", y0);
+ } else {
+ center = NR::Point(0, 0);
+ w = h = 0;
+ x0 = y0 = 0;
+ }
}
NR::Point cur = NR::Point (0, 0);
}
NR::Point cur = NR::Point (0, 0);
- NR::Rect bbox_original = NR::Rect (NR::Point (c[NR::X] - w/2, c[NR::Y] - h/2), NR::Point (c[NR::X] + w/2, c[NR::Y] + h/2));
+ NR::Rect bbox_original = NR::Rect (NR::Point (x0, y0), NR::Point (x0 + w, y0 + h));
double perimeter_original = (w + h)/4;
for (int x = 0;
double perimeter_original = (w + h)/4;
for (int x = 0;
// Note: We create a clone at 0,0 too, right over the original, in case our clones are colored
// Get transform from symmetry, shift, scale, rotation
// Note: We create a clone at 0,0 too, right over the original, in case our clones are colored
// Get transform from symmetry, shift, scale, rotation
- NR::Matrix t = clonetiler_get_transform (type, x, y, c[NR::X], c[NR::Y], w, h,
+ NR::Matrix t = clonetiler_get_transform (type, x, y, center[NR::X], center[NR::Y], w, h,
d_x_per_x, d_y_per_x, d_x_per_y, d_y_per_y, alternate_x, alternate_y, rand_x, rand_y,
d_per_x_exp, d_per_y_exp,
d_rot_per_x, d_rot_per_y, alternate_rotx, alternate_roty, rand_rot,
d_scalex_per_x, d_scaley_per_x, d_scalex_per_y, d_scaley_per_y,
alternate_scalex, alternate_scaley, rand_scalex, rand_scaley);
d_x_per_x, d_y_per_x, d_x_per_y, d_y_per_y, alternate_x, alternate_y, rand_x, rand_y,
d_per_x_exp, d_per_y_exp,
d_rot_per_x, d_rot_per_y, alternate_rotx, alternate_roty, rand_rot,
d_scalex_per_x, d_scaley_per_x, d_scalex_per_y, d_scaley_per_y,
alternate_scalex, alternate_scaley, rand_scalex, rand_scaley);
- cur = c * t - c;
+ cur = center * t - center;
if (fillrect) {
if ((cur[NR::X] > fillwidth) || (cur[NR::Y] > fillheight)) { // off limits
continue;
if (fillrect) {
if ((cur[NR::X] > fillwidth) || (cur[NR::Y] > fillheight)) { // off limits
continue;
float rgb[3];
sp_color_hsl_to_rgb_floatv (rgb, hsl[0], hsl[1], hsl[2]);
float rgb[3];
sp_color_hsl_to_rgb_floatv (rgb, hsl[0], hsl[1], hsl[2]);
- sp_svg_write_color(color_string, 32, SP_RGBA32_F_COMPOSE(rgb[0], rgb[1], rgb[2], 1.0));
+ sp_svg_write_color(color_string, sizeof(color_string), SP_RGBA32_F_COMPOSE(rgb[0], rgb[1], rgb[2], 1.0));
}
// Blur
}
// Blur
}
}
if (pick_to_size) {
}
}
if (pick_to_size) {
- t = NR::translate(-c[NR::X], -c[NR::Y]) * NR::scale (val, val) * NR::translate(c[NR::X], c[NR::Y]) * t;
+ t = NR::translate(-center[NR::X], -center[NR::Y]) * NR::scale (val, val) * NR::translate(center[NR::X], center[NR::Y]) * t;
}
if (pick_to_opacity) {
opacity *= val;
}
if (pick_to_color) {
}
if (pick_to_opacity) {
opacity *= val;
}
if (pick_to_color) {
- sp_svg_write_color(color_string, 32, rgba);
+ sp_svg_write_color(color_string, sizeof(color_string), rgba);
}
}
}
}