#define INKSCAPE_CANVAS_GRID_C

#include "sp-canvas-util.h"

#include "util/mathfns.h"

#include "display-forward.h"

#include <libnr/nr-pixops.h>

#include "desktop-handles.h"

#include "helper/units.h"

#include "svg/svg-color.h"

#include "xml/node-event-vector.h"

#include "sp-object.h"

#include "sp-namedview.h"

#include "inkscape.h"

#include "desktop.h"

#include "../document.h"

#include "preferences.h"

#include "canvas-grid.h"

#include "canvas-axonomgrid.h"

namespace Inkscape {

static gchar const *const grid_name[] = {

N_("Rectangular grid"),

N_("Axonometric grid")

};

static gchar const *const grid_svgname[] = {

"xygrid",

"axonomgrid"

};

static void grid_canvasitem_class_init (GridCanvasItemClass *klass);

static void grid_canvasitem_init (GridCanvasItem *grid);

static void grid_canvasitem_destroy (GtkObject *object);

static void grid_canvasitem_update (SPCanvasItem *item, Geom::Matrix const &affine, unsigned int flags);

static void grid_canvasitem_render (SPCanvasItem *item, SPCanvasBuf *buf);

static SPCanvasItemClass * parent_class;

grid_canvasitem_get_type (void)

{

static GtkType grid_canvasitem_type = 0;

if (!grid_canvasitem_type) {

GtkTypeInfo grid_canvasitem_info = {

(gchar *)"GridCanvasItem",

sizeof (GridCanvasItem),

sizeof (GridCanvasItemClass),

(GtkClassInitFunc) grid_canvasitem_class_init,

(GtkObjectInitFunc) grid_canvasitem_init,

NULL, NULL,

(GtkClassInitFunc) NULL

};

grid_canvasitem_type = gtk_type_unique (sp_canvas_item_get_type (), &grid_canvasitem_info);

}

return grid_canvasitem_type;

}

static void

grid_canvasitem_class_init (GridCanvasItemClass *klass)

{

GtkObjectClass *object_class;

SPCanvasItemClass *item_class;

object_class = (GtkObjectClass *) klass;

item_class = (SPCanvasItemClass *) klass;

parent_class = (SPCanvasItemClass*)gtk_type_class (sp_canvas_item_get_type ());

object_class->destroy = grid_canvasitem_destroy;

item_class->update = grid_canvasitem_update;

item_class->render = grid_canvasitem_render;

}

static void

grid_canvasitem_init (GridCanvasItem *griditem)

{

griditem->grid = NULL;

}

static void

grid_canvasitem_destroy (GtkObject *object)

{

g_return_if_fail (object != NULL);

g_return_if_fail (INKSCAPE_IS_GRID_CANVASITEM (object));

if (GTK_OBJECT_CLASS (parent_class)->destroy)

(* GTK_OBJECT_CLASS (parent_class)->destroy) (object);

}

static void

grid_canvasitem_render (SPCanvasItem * item, SPCanvasBuf * buf)

{

GridCanvasItem *gridcanvasitem = INKSCAPE_GRID_CANVASITEM (item);

if ( gridcanvasitem->grid && gridcanvasitem->grid->isVisible() ) {

sp_canvas_prepare_buffer (buf);

gridcanvasitem->grid->Render(buf);

}

}

static void

grid_canvasitem_update (SPCanvasItem *item, Geom::Matrix const &affine, unsigned int flags)

{

GridCanvasItem *gridcanvasitem = INKSCAPE_GRID_CANVASITEM (item);

if (parent_class->update)

(* parent_class->update) (item, affine, flags);

if (gridcanvasitem->grid) {

gridcanvasitem->grid->Update(affine, flags);

sp_canvas_request_redraw (item->canvas,

-1000000, -1000000,

1000000, 1000000);

item->x1 = item->y1 = -1000000;

item->x2 = item->y2 = 1000000;

}

}

static Inkscape::XML::NodeEventVector const _repr_events = {

NULL, /* child_added */

NULL, /* child_removed */

CanvasGrid::on_repr_attr_changed,

NULL, /* content_changed */

NULL /* order_changed */

};

CanvasGrid::CanvasGrid(SPNamedView * nv, Inkscape::XML::Node * in_repr, SPDocument *in_doc, GridType type)

: visible(true), gridtype(type)

{

repr = in_repr;

doc = in_doc;

if (repr) {

repr->addListener (&_repr_events, this);

}

namedview = nv;

canvasitems = NULL;

}

CanvasGrid::~CanvasGrid()

{

if (repr) {

repr->removeListenerByData (this);

}

while (canvasitems) {

gtk_object_destroy(GTK_OBJECT(canvasitems->data));

canvasitems = g_slist_remove(canvasitems, canvasitems->data);

}

}

const char *

CanvasGrid::getName()

{

return _(grid_name[gridtype]);

}

const char *

CanvasGrid::getSVGName()

{

return grid_svgname[gridtype];

}

CanvasGrid::getGridType()

{

return gridtype;

}

char const *

CanvasGrid::getName(GridType type)

{

return _(grid_name[type]);

}

char const *

CanvasGrid::getSVGName(GridType type)

{

return grid_svgname[type];

}

CanvasGrid::getGridTypeFromSVGName(char const *typestr)

{

if (!typestr) return GRID_RECTANGULAR;

gint t = 0;

for (t = GRID_MAXTYPENR; t >= 0; t--) { //this automatically defaults to grid0 which is rectangular grid

if (!strcmp(typestr, grid_svgname[t])) break;

}

return (GridType) t;

}

CanvasGrid::getGridTypeFromName(char const *typestr)

{

if (!typestr) return GRID_RECTANGULAR;

gint t = 0;

for (t = GRID_MAXTYPENR; t >= 0; t--) { //this automatically defaults to grid0 which is rectangular grid

if (!strcmp(typestr, _(grid_name[t]))) break;

}

return (GridType) t;

}

CanvasGrid::writeNewGridToRepr(Inkscape::XML::Node * repr, SPDocument * doc, GridType gridtype)

{

if (!repr) return;

if (gridtype > GRID_MAXTYPENR) return;

// first create the child xml node, then hook it to repr. This order is important, to not set off listeners to repr before the new node is complete.

Inkscape::XML::Document *xml_doc = sp_document_repr_doc(doc);

Inkscape::XML::Node *newnode;

newnode = xml_doc->createElement("inkscape:grid");

newnode->setAttribute("type", getSVGName(gridtype));

repr->appendChild(newnode);

Inkscape::GC::release(newnode);

sp_document_done(doc, SP_VERB_DIALOG_NAMEDVIEW, _("Create new grid"));

}

CanvasGrid*

CanvasGrid::NewGrid(SPNamedView * nv, Inkscape::XML::Node * repr, SPDocument * doc, GridType gridtype)

{

if (!repr) return NULL;

if (!doc) {

g_error("CanvasGrid::NewGrid - doc==NULL");

return NULL;

}

switch (gridtype) {

case GRID_RECTANGULAR:

return (CanvasGrid*) new CanvasXYGrid(nv, repr, doc);

case GRID_AXONOMETRIC:

return (CanvasGrid*) new CanvasAxonomGrid(nv, repr, doc);

}

return NULL;

}

GridCanvasItem *

CanvasGrid::createCanvasItem(SPDesktop * desktop)

{

if (!desktop) return NULL;

// check if there is already a canvasitem on this desktop linking to this grid

for (GSList *l = canvasitems; l != NULL; l = l->next) {

if ( sp_desktop_gridgroup(desktop) == SP_CANVAS_GROUP(SP_CANVAS_ITEM(l->data)->parent) ) {

return NULL;

}

}

GridCanvasItem * item = INKSCAPE_GRID_CANVASITEM( sp_canvas_item_new(sp_desktop_gridgroup(desktop), INKSCAPE_TYPE_GRID_CANVASITEM, NULL) );

item->grid = this;

sp_canvas_item_show(SP_CANVAS_ITEM(item));

gtk_object_ref(GTK_OBJECT(item)); // since we're keeping a link to this item, we need to bump up the ref count

canvasitems = g_slist_prepend(canvasitems, item);

return item;

}

Gtk::Widget *

CanvasGrid::newWidget()

{

Gtk::VBox * vbox = Gtk::manage( new Gtk::VBox() );

Gtk::Label * namelabel = Gtk::manage(new Gtk::Label("", Gtk::ALIGN_CENTER) );

Glib::ustring str("<b>");

str += getName();

str += "</b>";

namelabel->set_markup(str);

vbox->pack_start(*namelabel, true, true);

Inkscape::UI::Widget::RegisteredCheckButton * _rcb_enabled = Gtk::manage(

new Inkscape::UI::Widget::RegisteredCheckButton( _("_Enabled"),

_("Determines whether to snap to this grid or not. Can be 'on' for invisible grids."),

"enabled", _wr, false, repr, doc) );

Inkscape::UI::Widget::RegisteredCheckButton * _rcb_visible = Gtk::manage(

new Inkscape::UI::Widget::RegisteredCheckButton( _("_Visible"),

_("Determines whether the grid is displayed or not. Objects are still snapped to invisible grids."),

"visible", _wr, true, repr, doc) );

vbox->pack_start(*_rcb_enabled, true, true);

vbox->pack_start(*_rcb_visible, true, true);

Gtk::Widget * gridwdg = newSpecificWidget();

vbox->pack_start(*gridwdg, true, true);

std::list<Gtk::Widget*> slaves;

slaves.push_back(_rcb_visible);

slaves.push_back(gridwdg);

_rcb_enabled->setSlaveWidgets(slaves);

// set widget values

_rcb_visible->setActive(visible);

if (snapper != NULL) {

_rcb_enabled->setActive(snapper->getEnabled());

}

return dynamic_cast<Gtk::Widget *> (vbox);

}

CanvasGrid::on_repr_attr_changed(Inkscape::XML::Node *repr, gchar const *key, gchar const *oldval, gchar const *newval, bool is_interactive, void *data)

{

if (!data)

return;

((CanvasGrid*) data)->onReprAttrChanged(repr, key, oldval, newval, is_interactive);

}

bool CanvasGrid::isEnabled()

{

if (snapper == NULL) {

return false;

}

return snapper->getEnabled();

}

#define SPACE_SIZE_X 15

#define SPACE_SIZE_Y 10

static inline void

attach_all(Gtk::Table &table, Gtk::Widget const *const arr[], unsigned size, int start = 0)

{

for (unsigned i=0, r=start; i<size/sizeof(Gtk::Widget*); i+=2) {

if (arr[i] && arr[i+1]) {

table.attach (const_cast<Gtk::Widget&>(*arr[i]), 1, 2, r, r+1,

Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0);

table.attach (const_cast<Gtk::Widget&>(*arr[i+1]), 2, 3, r, r+1,

Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0);

} else {

if (arr[i+1]) {

table.attach (const_cast<Gtk::Widget&>(*arr[i+1]), 1, 3, r, r+1,

Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0);

} else if (arr[i]) {

Gtk::Label& label = reinterpret_cast<Gtk::Label&> (const_cast<Gtk::Widget&>(*arr[i]));

label.set_alignment (0.0);

table.attach (label, 0, 3, r, r+1,

Gtk::FILL|Gtk::EXPAND, (Gtk::AttachOptions)0,0,0);

} else {

Gtk::HBox *space = manage (new Gtk::HBox);

space->set_size_request (SPACE_SIZE_X, SPACE_SIZE_Y);

table.attach (*space, 0, 1, r, r+1,

(Gtk::AttachOptions)0, (Gtk::AttachOptions)0,0,0);

}

}

++r;

}

}

CanvasXYGrid::CanvasXYGrid (SPNamedView * nv, Inkscape::XML::Node * in_repr, SPDocument * in_doc)

: CanvasGrid(nv, in_repr, in_doc, GRID_RECTANGULAR)

{

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

gridunit = sp_unit_get_by_abbreviation( prefs->getString("/options/grids/xy/units").data() );

if (!gridunit)

gridunit = &sp_unit_get_by_id(SP_UNIT_PX);

origin[Geom::X] = sp_units_get_pixels(prefs->getDouble("/options/grids/xy/origin_x", 0.0), *gridunit);

origin[Geom::Y] = sp_units_get_pixels(prefs->getDouble("/options/grids/xy/origin_y", 0.0), *gridunit);

color = prefs->getInt("/options/grids/xy/color", 0x0000ff20);

empcolor = prefs->getInt("/options/grids/xy/empcolor", 0x0000ff40);

empspacing = prefs->getInt("/options/grids/xy/empspacing", 5);

spacing[Geom::X] = sp_units_get_pixels(prefs->getDouble("/options/grids/xy/spacing_x", 0.0), *gridunit);

spacing[Geom::Y] = sp_units_get_pixels(prefs->getDouble("/options/grids/xy/spacing_y", 0.0), *gridunit);

render_dotted = prefs->getBool("/options/grids/xy/dotted", false);

snapper = new CanvasXYGridSnapper(this, &namedview->snap_manager, 0);

if (repr) readRepr();

}

CanvasXYGrid::~CanvasXYGrid ()

{

if (snapper) delete snapper;

}

static gboolean

sp_nv_read_length(gchar const *str, guint base, gdouble *val, SPUnit const **unit)

{

if (!str) {

return FALSE;

}

gchar *u;

gdouble v = g_ascii_strtod(str, &u);

if (!u) {

return FALSE;

}

while (isspace(*u)) {

u += 1;

}

if (!*u) {

/* No unit specified - keep default */

*val = v;

return TRUE;

}

if (base & SP_UNIT_DEVICE) {

if (u[0] && u[1] && !isalnum(u[2]) && !strncmp(u, "px", 2)) {

*unit = &sp_unit_get_by_id(SP_UNIT_PX);

*val = v;

return TRUE;

}

}

if (base & SP_UNIT_ABSOLUTE) {

if (!strncmp(u, "pt", 2)) {

*unit = &sp_unit_get_by_id(SP_UNIT_PT);

} else if (!strncmp(u, "mm", 2)) {

*unit = &sp_unit_get_by_id(SP_UNIT_MM);

} else if (!strncmp(u, "cm", 2)) {

*unit = &sp_unit_get_by_id(SP_UNIT_CM);

} else if (!strncmp(u, "m", 1)) {

*unit = &sp_unit_get_by_id(SP_UNIT_M);

} else if (!strncmp(u, "in", 2)) {

*unit = &sp_unit_get_by_id(SP_UNIT_IN);

} else {

return FALSE;

}

*val = v;

return TRUE;

}

return FALSE;

}

static gboolean sp_nv_read_opacity(gchar const *str, guint32 *color)

{

if (!str) {

return FALSE;

}

gchar *u;

gdouble v = g_ascii_strtod(str, &u);

if (!u) {

return FALSE;

}

v = CLAMP(v, 0.0, 1.0);

*color = (*color & 0xffffff00) | (guint32) floor(v * 255.9999);

return TRUE;

}

static void validateScalar(double oldVal,

double* pTarget)

{

// Avoid nullness.

if ( pTarget == NULL )

return;

// Invalid new value?

if ( *pTarget <= 0 ) {

// If the old value is somehow invalid as well, then default to 1.

if ( oldVal <= 0 )

oldVal = 1;

// Reset the scalar and associated widget to the old value.

*pTarget = oldVal;

} //if

} //validateScalar

static void validateInt(gint oldVal,

gint* pTarget)

{

// Avoid nullness.

if ( pTarget == NULL )

return;

// Invalid new value?

if ( *pTarget <= 0 ) {

// If the old value is somehow invalid as well, then default to 1.

if ( oldVal <= 0 )

oldVal = 1;

// Reset the int and associated widget to the old value.

*pTarget = oldVal;

} //if

} //validateInt

CanvasXYGrid::readRepr()

{

gchar const *value;

if ( (value = repr->attribute("originx")) ) {

sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &origin[Geom::X], &gridunit);

origin[Geom::X] = sp_units_get_pixels(origin[Geom::X], *(gridunit));

}

if ( (value = repr->attribute("originy")) ) {

sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &origin[Geom::Y], &gridunit);

origin[Geom::Y] = sp_units_get_pixels(origin[Geom::Y], *(gridunit));

}

if ( (value = repr->attribute("spacingx")) ) {

double oldVal = spacing[Geom::X];

sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &spacing[Geom::X], &gridunit);

validateScalar( oldVal, &spacing[Geom::X]);

spacing[Geom::X] = sp_units_get_pixels(spacing[Geom::X], *(gridunit));

}

if ( (value = repr->attribute("spacingy")) ) {

double oldVal = spacing[Geom::Y];

sp_nv_read_length(value, SP_UNIT_ABSOLUTE | SP_UNIT_DEVICE, &spacing[Geom::Y], &gridunit);

validateScalar( oldVal, &spacing[Geom::Y]);

spacing[Geom::Y] = sp_units_get_pixels(spacing[Geom::Y], *(gridunit));

}

if ( (value = repr->attribute("color")) ) {

color = (color & 0xff) | sp_svg_read_color(value, color);

}

if ( (value = repr->attribute("empcolor")) ) {

empcolor = (empcolor & 0xff) | sp_svg_read_color(value, empcolor);

}

if ( (value = repr->attribute("opacity")) ) {

sp_nv_read_opacity(value, &color);

}

if ( (value = repr->attribute("empopacity")) ) {

sp_nv_read_opacity(value, &empcolor);

}

if ( (value = repr->attribute("empspacing")) ) {

gint oldVal = empspacing;

empspacing = atoi(value);

validateInt( oldVal, &empspacing);

}

if ( (value = repr->attribute("dotted")) ) {

render_dotted = (strcmp(value,"false") != 0 && strcmp(value, "0") != 0);

}

if ( (value = repr->attribute("visible")) ) {

visible = (strcmp(value,"false") != 0 && strcmp(value, "0") != 0);

}

if ( (value = repr->attribute("enabled")) ) {

g_assert(snapper != NULL);

snapper->setEnabled(strcmp(value,"false") != 0 && strcmp(value, "0") != 0);

}

for (GSList *l = canvasitems; l != NULL; l = l->next) {

sp_canvas_item_request_update ( SP_CANVAS_ITEM(l->data) );

}

return;

}

CanvasXYGrid::onReprAttrChanged(Inkscape::XML::Node */*repr*/, gchar const */*key*/, gchar const */*oldval*/, gchar const */*newval*/, bool /*is_interactive*/)

{

readRepr();

if ( ! (_wr.isUpdating()) )

updateWidgets();

}

Gtk::Widget *

CanvasXYGrid::newSpecificWidget()

{

Gtk::Table * table = Gtk::manage( new Gtk::Table(1,1) );

Inkscape::UI::Widget::RegisteredUnitMenu *_rumg = Gtk::manage( new Inkscape::UI::Widget::RegisteredUnitMenu(

_("Grid _units:"), "units", _wr, repr, doc) );

Inkscape::UI::Widget::RegisteredScalarUnit *_rsu_ox = Gtk::manage( new Inkscape::UI::Widget::RegisteredScalarUnit(

_("_Origin X:"), _("X coordinate of grid origin"), "originx", *_rumg, _wr, repr, doc) );

Inkscape::UI::Widget::RegisteredScalarUnit *_rsu_oy = Gtk::manage( new Inkscape::UI::Widget::RegisteredScalarUnit(

_("O_rigin Y:"), _("Y coordinate of grid origin"), "originy", *_rumg, _wr, repr, doc) );

Inkscape::UI::Widget::RegisteredScalarUnit *_rsu_sx = Gtk::manage( new Inkscape::UI::Widget::RegisteredScalarUnit(

_("Spacing _X:"), _("Distance between vertical grid lines"), "spacingx", *_rumg, _wr, repr, doc) );

Inkscape::UI::Widget::RegisteredScalarUnit *_rsu_sy = Gtk::manage( new Inkscape::UI::Widget::RegisteredScalarUnit(

_("Spacing _Y:"), _("Distance between horizontal grid lines"), "spacingy", *_rumg, _wr, repr, doc) );

Inkscape::UI::Widget::RegisteredColorPicker *_rcp_gcol = Gtk::manage(

new Inkscape::UI::Widget::RegisteredColorPicker(

_("Grid line _color:"), _("Grid line color"), _("Color of grid lines"),

"color", "opacity", _wr, repr, doc));

Inkscape::UI::Widget::RegisteredColorPicker *_rcp_gmcol = Gtk::manage(

new Inkscape::UI::Widget::RegisteredColorPicker(

_("Ma_jor grid line color:"), _("Major grid line color"),

_("Color of the major (highlighted) grid lines"), "empcolor", "empopacity",

_wr, repr, doc));

Inkscape::UI::Widget::RegisteredSuffixedInteger *_rsi = Gtk::manage( new Inkscape::UI::Widget::RegisteredSuffixedInteger(

_("_Major grid line every:"), "", _("lines"), "empspacing", _wr, repr, doc) );

table->set_spacings(2);

_wr.setUpdating (true);

_rsu_ox->setDigits(4);

_rsu_ox->setIncrements(0.1, 1.0);

_rsu_oy->setDigits(4);

_rsu_oy->setIncrements(0.1, 1.0);

_rsu_sx->setDigits(4);

_rsu_sx->setIncrements(0.1, 1.0);

_rsu_sy->setDigits(4);

_rsu_sy->setIncrements(0.1, 1.0);

Inkscape::UI::Widget::RegisteredCheckButton * _rcb_dotted = Gtk::manage(

new Inkscape::UI::Widget::RegisteredCheckButton( _("_Show dots instead of lines"),

_("If set, displays dots at gridpoints instead of gridlines"),

"dotted", _wr, false, repr, doc) );

_wr.setUpdating (false);

Gtk::Widget const *const widget_array[] = {

0, _rumg,

0, _rsu_ox,

0, _rsu_oy,

0, _rsu_sx,

0, _rsu_sy,

_rcp_gcol->_label, _rcp_gcol,

0, 0,

_rcp_gmcol->_label, _rcp_gmcol,

0, _rsi,

0, _rcb_dotted,

};

attach_all (*table, widget_array, sizeof(widget_array));

// set widget values

_rumg->setUnit (gridunit);

gdouble val;

val = origin[Geom::X];

val = sp_pixels_get_units (val, *(gridunit));

_rsu_ox->setValue (val);

val = origin[Geom::Y];

val = sp_pixels_get_units (val, *(gridunit));

_rsu_oy->setValue (val);

val = spacing[Geom::X];

double gridx = sp_pixels_get_units (val, *(gridunit));

_rsu_sx->setValue (gridx);

val = spacing[Geom::Y];

double gridy = sp_pixels_get_units (val, *(gridunit));

_rsu_sy->setValue (gridy);

_rcp_gcol->setRgba32 (color);

_rcp_gmcol->setRgba32 (empcolor);

_rsi->setValue (empspacing);

_rcb_dotted->setActive(render_dotted);

return table;

}

CanvasXYGrid::updateWidgets()

{

}

CanvasXYGrid::Update (Geom::Matrix const &affine, unsigned int /*flags*/)

{

ow = origin * affine;

sw = spacing * affine;

sw -= Geom::Point(affine[4], affine[5]);

for(int dim = 0; dim < 2; dim++) {

gint scaling_factor = empspacing;

if (scaling_factor <= 1)

scaling_factor = 5;

scaled[dim] = FALSE;

sw[dim] = fabs (sw[dim]);

while (sw[dim] < 8.0) {

scaled[dim] = TRUE;

sw[dim] *= scaling_factor;

/* First pass, go up to the major line spacing, then

scaling_factor = 2;

}

}

}

static void

grid_hline (SPCanvasBuf *buf, gint y, gint xs, gint xe, guint32 rgba)

{

if ((y >= buf->rect.y0) && (y < buf->rect.y1)) {

guint r, g, b, a;

gint x0, x1, x;

guchar *p;

r = NR_RGBA32_R (rgba);

g = NR_RGBA32_G (rgba);

b = NR_RGBA32_B (rgba);

a = NR_RGBA32_A (rgba);

x0 = MAX (buf->rect.x0, xs);

x1 = MIN (buf->rect.x1, xe + 1);

p = buf->buf + (y - buf->rect.y0) * buf->buf_rowstride + (x0 - buf->rect.x0) * 4;

for (x = x0; x < x1; x++) {

p[0] = NR_COMPOSEN11_1111 (r, a, p[0]);

p[1] = NR_COMPOSEN11_1111 (g, a, p[1]);

p[2] = NR_COMPOSEN11_1111 (b, a, p[2]);

p += 4;

}

}

}

static void

grid_vline (SPCanvasBuf *buf, gint x, gint ys, gint ye, guint32 rgba)

{

if ((x >= buf->rect.x0) && (x < buf->rect.x1)) {

guint r, g, b, a;

gint y0, y1, y;

guchar *p;

r = NR_RGBA32_R(rgba);

g = NR_RGBA32_G (rgba);

b = NR_RGBA32_B (rgba);

a = NR_RGBA32_A (rgba);

y0 = MAX (buf->rect.y0, ys);

y1 = MIN (buf->rect.y1, ye + 1);

p = buf->buf + (y0 - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 4;

for (y = y0; y < y1; y++) {

p[0] = NR_COMPOSEN11_1111 (r, a, p[0]);

p[1] = NR_COMPOSEN11_1111 (g, a, p[1]);

p[2] = NR_COMPOSEN11_1111 (b, a, p[2]);

p += buf->buf_rowstride;

}

}

}

static void

grid_dot (SPCanvasBuf *buf, gint x, gint y, guint32 rgba)

{

if ( (y >= buf->rect.y0) && (y < buf->rect.y1)

&& (x >= buf->rect.x0) && (x < buf->rect.x1) ) {

guint r, g, b, a;

guchar *p;

r = NR_RGBA32_R (rgba);

g = NR_RGBA32_G (rgba);

b = NR_RGBA32_B (rgba);

a = NR_RGBA32_A (rgba);

p = buf->buf + (y - buf->rect.y0) * buf->buf_rowstride + (x - buf->rect.x0) * 4;

p[0] = NR_COMPOSEN11_1111 (r, a, p[0]);

p[1] = NR_COMPOSEN11_1111 (g, a, p[1]);

p[2] = NR_COMPOSEN11_1111 (b, a, p[2]);

}

}

CanvasXYGrid::Render (SPCanvasBuf *buf)

{

gdouble const sxg = floor ((buf->rect.x0 - ow[Geom::X]) / sw[Geom::X]) * sw[Geom::X] + ow[Geom::X];

gint const xlinestart = (gint) Inkscape::round((sxg - ow[Geom::X]) / sw[Geom::X]);

gdouble const syg = floor ((buf->rect.y0 - ow[Geom::Y]) / sw[Geom::Y]) * sw[Geom::Y] + ow[Geom::Y];

gint const ylinestart = (gint) Inkscape::round((syg - ow[Geom::Y]) / sw[Geom::Y]);

//set correct coloring, depending preference (when zoomed out, always major coloring or minor coloring)

Inkscape::Preferences *prefs = Inkscape::Preferences::get();

guint32 _empcolor;

bool no_emp_when_zoomed_out = prefs->getBool("/options/grids/no_emphasize_when_zoomedout", false);

if( (scaled[Geom::X] || scaled[Geom::Y]) && no_emp_when_zoomed_out ) {

_empcolor = color;

} else {

_empcolor = empcolor;

}

if (!render_dotted) {

gint ylinenum;

gdouble y;

for (y = syg, ylinenum = ylinestart; y < buf->rect.y1; y += sw[Geom::Y], ylinenum++) {

gint const y0 = (gint) Inkscape::round(y);

if (!scaled[Geom::Y] && (ylinenum % empspacing) != 0) {

grid_hline (buf, y0, buf->rect.x0, buf->rect.x1 - 1, color);

} else {

grid_hline (buf, y0, buf->rect.x0, buf->rect.x1 - 1, _empcolor);

}

}

gint xlinenum;

gdouble x;

for (x = sxg, xlinenum = xlinestart; x < buf->rect.x1; x += sw[Geom::X], xlinenum++) {

gint const ix = (gint) Inkscape::round(x);

if (!scaled[Geom::X] && (xlinenum % empspacing) != 0) {

grid_vline (buf, ix, buf->rect.y0, buf->rect.y1, color);

} else {

grid_vline (buf, ix, buf->rect.y0, buf->rect.y1, _empcolor);

}

}

} else {

gint ylinenum;

gdouble y;

for (y = syg, ylinenum = ylinestart; y < buf->rect.y1; y += sw[Geom::Y], ylinenum++) {

gint const iy = (gint) Inkscape::round(y);

gint xlinenum;

gdouble x;

for (x = sxg, xlinenum = xlinestart; x < buf->rect.x1; x += sw[Geom::X], xlinenum++) {

gint const ix = (gint) Inkscape::round(x);

if ( (!scaled[Geom::X] && (xlinenum % empspacing) != 0)

|| (!scaled[Geom::Y] && (ylinenum % empspacing) != 0)

|| ((scaled[Geom::X] || scaled[Geom::Y]) && no_emp_when_zoomed_out) )

{

grid_dot (buf, ix, iy, color | (guint32)0x000000FF); // put alpha to max value

} else {

gint const pitch = 1;

grid_dot (buf, ix-pitch, iy, _empcolor);

grid_dot (buf, ix+pitch, iy, _empcolor);

grid_dot (buf, ix, iy, _empcolor | (guint32)0x000000FF); // put alpha to max value

grid_dot (buf, ix, iy-pitch, _empcolor);

grid_dot (buf, ix, iy+pitch, _empcolor);

}

}

}

}

}

CanvasXYGridSnapper::CanvasXYGridSnapper(CanvasXYGrid *grid, SnapManager *sm, Geom::Coord const d) : LineSnapper(sm, d)

{

this->grid = grid;

}

Geom::Coord CanvasXYGridSnapper::getSnapperTolerance() const

{

SPDesktop const *dt = _snapmanager->getDesktop();

double const zoom = dt ? dt->current_zoom() : 1;

return _snapmanager->snapprefs.getGridTolerance() / zoom;

}

bool CanvasXYGridSnapper::getSnapperAlwaysSnap() const

{

return _snapmanager->snapprefs.getGridTolerance() == 10000; //TODO: Replace this threshold of 10000 by a constant; see also tolerance-slider.cpp

}

LineSnapper::LineList

CanvasXYGridSnapper::_getSnapLines(Geom::Point const &p) const

{

LineList s;

if ( grid == NULL ) {

return s;

}

for (unsigned int i = 0; i < 2; ++i) {

/* This is to make sure we snap to only visible grid lines */

double scaled_spacing = grid->sw[i]; // this is spacing of visible lines in screen pixels

// convert screen pixels to px

// FIXME: after we switch to snapping dist in screen pixels, this will be unnecessary

if (SP_ACTIVE_DESKTOP) {

scaled_spacing /= SP_ACTIVE_DESKTOP->current_zoom();

}

Geom::Coord rounded;

Geom::Point point_on_line;

rounded = Inkscape::Util::round_to_upper_multiple_plus(p[i], scaled_spacing, grid->origin[i]);

point_on_line = i ? Geom::Point(0, rounded) : Geom::Point(rounded, 0);

s.push_back(std::make_pair(component_vectors[i], point_on_line));

rounded = Inkscape::Util::round_to_lower_multiple_plus(p[i], scaled_spacing, grid->origin[i]);

point_on_line = i ? Geom::Point(0, rounded) : Geom::Point(rounded, 0);

s.push_back(std::make_pair(component_vectors[i], point_on_line));

}

return s;

}

void CanvasXYGridSnapper::_addSnappedLine(SnappedConstraints &sc, Geom::Point const snapped_point, Geom::Coord const snapped_distance, SnapSourceType const &source, SnapTargetType const &target, Geom::Point const normal_to_line, Geom::Point const point_on_line) const

{

SnappedLine dummy = SnappedLine(snapped_point, snapped_distance, source, target, getSnapperTolerance(), getSnapperAlwaysSnap(), normal_to_line, point_on_line);

sc.grid_lines.push_back(dummy);

}

bool CanvasXYGridSnapper::ThisSnapperMightSnap() const

{

return _snap_enabled && _snapmanager->snapprefs.getSnapToGrids() && _snapmanager->snapprefs.getSnapModeBBoxOrNodes();

}

} // namespace Inkscape