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fgdata/Nasal/canvas/api.nas

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# Internal helper
var _getColor = func(color)
{
if( size(color) == 1 )
var color = color[0];
if( typeof(color) == 'scalar' )
return color;
if( typeof(color) != "vector" )
return debug.warn("Wrong type for color");
if( size(color) < 3 or size(color) > 4 )
return debug.warn("Color needs 3 or 4 values (RGB or RGBA)");
var str = 'rgb';
if( size(color) == 4 )
str ~= 'a';
str ~= '(';
# rgb = [0,255], a = [0,1]
for(var i = 0; i < size(color); i += 1)
str ~= (i > 0 ? ',' : '') ~ (i < 3 ? int(color[i] * 255) : color[i]);
return str ~ ')';
};
var _arg2valarray = func
{
var ret = arg;
while ( typeof(ret) == "vector"
and size(ret) == 1 and typeof(ret[0]) == "vector" )
ret = ret[0];
return ret;
}
# Transform
# ==============================================================================
# A transformation matrix which is used to transform an #Element on the canvas.
# The dimensions of the matrix are 3x3 where the last row is always 0 0 1:
#
# a c e
# b d f
# 0 0 1
#
# See http://www.w3.org/TR/SVG/coords.html#TransformMatrixDefined for details.
#
var Transform = {
new: func(node, vals = nil)
{
var m = {
parents: [Transform],
_node: node,
a: node.getNode("m[0]", 1),
b: node.getNode("m[1]", 1),
c: node.getNode("m[2]", 1),
d: node.getNode("m[3]", 1),
e: node.getNode("m[4]", 1),
f: node.getNode("m[5]", 1)
};
var use_vals = typeof(vals) == 'vector' and size(vals) == 6;
# initialize to identity matrix
m.a.setDoubleValue(use_vals ? vals[0] : 1);
m.b.setDoubleValue(use_vals ? vals[1] : 0);
m.c.setDoubleValue(use_vals ? vals[2] : 0);
m.d.setDoubleValue(use_vals ? vals[3] : 1);
m.e.setDoubleValue(use_vals ? vals[4] : 0);
m.f.setDoubleValue(use_vals ? vals[5] : 0);
return m;
},
setTranslation: func
{
var trans = _arg2valarray(arg);
me.e.setDoubleValue(trans[0]);
me.f.setDoubleValue(trans[1]);
return me;
},
# Set rotation (Optionally around a specified point instead of (0,0))
#
# setRotation(rot)
# setRotation(rot, cx, cy)
#
# @note If using with rotation center different to (0,0) don't use
# #setTranslation as it would interfere with the rotation.
setRotation: func(angle)
{
var center = _arg2valarray(arg);
var s = math.sin(angle);
var c = math.cos(angle);
me.a.setDoubleValue(c);
me.b.setDoubleValue(s);
me.c.setDoubleValue(-s);
me.d.setDoubleValue(c);
if( size(center) == 2 )
{
me.e.setDoubleValue( (-center[0] * c) + (center[1] * s) + center[0] );
me.f.setDoubleValue( (-center[0] * s) - (center[1] * c) + center[1] );
}
return me;
},
# Set scale (either as parameters or array)
#
# If only one parameter is given its value is used for both x and y
# setScale(x, y)
# setScale([x, y])
setScale: func
{
var scale = _arg2valarray(arg);
me.a.setDoubleValue(scale[0]);
me.d.setDoubleValue(size(scale) >= 2 ? scale[1] : scale[0]);
return me;
},
getScale: func()
{
# TODO handle rotation
return [me.a.getValue(), me.d.getValue()];
}
};
# Element
# ==============================================================================
# Baseclass for all elements on a canvas
#
var Element = {
# Reference frames (for "clip" coordinates)
GLOBAL: 0,
PARENT: 1,
LOCAL: 2,
# Constructor
#
# @param ghost Element ghost as retrieved from core methods
new: func(ghost)
{
return {
parents: [PropertyElement, Element, ghost],
_node: props.wrapNode(ghost._node_ghost)
};
},
# Get parent group/element
getParent: func()
{
var parent_ghost = me._getParent();
if( parent_ghost == nil )
return nil;
var type = props.wrapNode(parent_ghost._node_ghost).getName();
var factory = me._getFactory(type);
if( factory == nil )
return parent_ghost;
return factory(parent_ghost);
},
# Get the canvas this element is placed on
getCanvas: func()
{
wrapCanvas(me._getCanvas());
},
# Check if elements represent same instance
#
# @param el Other Element or element ghost
equals: func(el)
{
return me._node.equals(el._node_ghost);
},
# Hide/Show element
#
# @param visible Whether the element should be visible
setVisible: func(visible = 1)
{
me.setBool("visible", visible);
},
getVisible: func me.getBool("visible"),
# Hide element (Shortcut for setVisible(0))
hide: func me.setVisible(0),
# Show element (Shortcut for setVisible(1))
show: func me.setVisible(1),
# Toggle element visibility
toggleVisibility: func me.setVisible( !me.getVisible() ),
#
setGeoPosition: func(lat, lon)
{
me._getTf()._node.getNode("m-geo[4]", 1).setValue("N" ~ lat);
me._getTf()._node.getNode("m-geo[5]", 1).setValue("E" ~ lon);
return me;
},
# Create a new transformation matrix
#
# @param vals Default values (Vector of 6 elements)
createTransform: func(vals = nil)
{
var node = me._node.addChild("tf", 1); # tf[0] is reserved for
# setRotation
return Transform.new(node, vals);
},
# Shortcut for setting translation
setTranslation: func { me._getTf().setTranslation(arg); return me; },
# Get translation set with #setTranslation
getTranslation: func()
{
if( me['_tf'] == nil )
return [0, 0];
return [me._tf.e.getValue(), me._tf.f.getValue()];
},
# Set rotation around transformation center (see #setCenter).
#
# @note This replaces the the existing transformation. For additional scale or
# translation use additional transforms (see #createTransform).
setRotation: func(rot)
{
if( me['_tf_rot'] == nil )
# always use the first matrix slot to ensure correct rotation
# around transformation center.
# tf-rot-index can be set to change the slot to be used. This is used for
# example by the SVG parser to apply the rotation after all
# transformations defined in the SVG file.
me['_tf_rot'] = Transform.new(
me._node.getNode("tf[" ~ me.get("tf-rot-index", 0) ~ "]", 1)
);
me._tf_rot.setRotation(rot, me.getCenter());
return me;
},
# Shortcut for setting scale
setScale: func { me._getTf().setScale(arg); return me; },
# Shortcut for getting scale
getScale: func me._getTf().getScale(),
# Set the fill/background/boundingbox color
#
# @param color Vector of 3 or 4 values in [0, 1]
setColorFill: func me.set('fill', _getColor(arg)),
getColorFill: func me.get('fill'),
#
getTransformedBounds: func me.getTightBoundingBox(),
# Calculate the transformation center based on bounding box and center-offset
updateCenter: func
{
me.update();
var bb = me.getTightBoundingBox();
if( bb[0] > bb[2] or bb[1] > bb[3] )
return;
me._setupCenterNodes
(
(bb[0] + bb[2]) / 2 + (me.get("center-offset-x") or 0),
(bb[1] + bb[3]) / 2 + (me.get("center-offset-y") or 0)
);
return me;
},
# Set transformation center (currently only used for rotation)
setCenter: func()
{
var center = _arg2valarray(arg);
if( size(center) != 2 )
return debug.warn("invalid arg");
me._setupCenterNodes(center[0], center[1]);
return me;
},
# Get transformation center
getCenter: func()
{
var center = [0, 0];
me._setupCenterNodes();
if( me._center[0] != nil )
center[0] = me._center[0].getValue() or 0;
if( me._center[1] != nil )
center[1] = me._center[1].getValue() or 0;
return center;
},
# Internal Transform for convenience transform functions
_getTf: func
{
if( me['_tf'] == nil )
me['_tf'] = me.createTransform();
return me._tf;
},
_setupCenterNodes: func(cx = nil, cy = nil)
{
if( me["_center"] == nil )
me["_center"] = [
me._node.getNode("center[0]", cx != nil),
me._node.getNode("center[1]", cy != nil)
];
if( cx != nil )
me._center[0].setDoubleValue(cx);
if( cy != nil )
me._center[1].setDoubleValue(cy);
}
};
# Group
# ==============================================================================
# Class for a group element on a canvas
#
var Group = {
# public:
new: func(ghost)
{
return { parents: [Group, Element.new(ghost)] };
},
# Create a child of given type with specified id.
# type can be group, text
createChild: func(type, id = nil)
{
var ghost = me._createChild(type, id);
var factory = me._getFactory(type);
if( factory == nil )
return ghost;
return factory(ghost);
},
# Create multiple children of given type
createChildren: func(type, count)
{
var factory = me._getFactory(type);
if( factory == nil )
return [];
var nodes = props._addChildren(me._node._g, [type, count, 0, 0]);
for(var i = 0; i < count; i += 1)
nodes[i] = factory( me._getChild(nodes[i]) );
return nodes;
},
# Create a path child drawing a (rounded) rectangle
#
# @param x Position of left border
# @param y Position of top border
# @param w Width
# @param h Height
# @param cfg Optional settings (eg. {"border-top-radius": 5})
rect: func(x, y, w, h, cfg = nil)
{
return me.createChild("path").rect(x, y, w, h, cfg);
},
# Get a vector of all child elements
getChildren: func()
{
var children = [];
foreach(var c; me._node.getChildren())
if( me._isElementNode(c) )
append(children, me._wrapElement(c));
return children;
},
# Get first child with given id (breadth-first search)
#
# @note Use with care as it can take several miliseconds (for me eg. ~2ms).
# TODO check with new C++ implementation
getElementById: func(id)
{
var ghost = me._getElementById(id);
if( ghost == nil )
return nil;
var node = props.wrapNode(ghost._node_ghost);
var factory = me._getFactory( node.getName() );
if( factory == nil )
return ghost;
return factory(ghost);
},
# Remove all children
removeAllChildren: func()
{
foreach(var type; keys(me._element_factories))
me._node.removeChildren(type, 0);
return me;
},
# private:
_isElementNode: func(el)
{
# element nodes have type NONE and valid element names (those in the factory
# list)
return el.getType() == "NONE"
and me._element_factories[ el.getName() ] != nil;
},
_wrapElement: func(node)
{
# Create element from existing node
return me._element_factories[ node.getName() ]( me._getChild(node._g) );
},
_getFactory: func(type)
{
var factory = me._element_factories[type];
if( factory == nil )
debug.dump("canvas.Group.createChild(): unknown type (" ~ type ~ ")");
return factory;
}
};
# Map
# ==============================================================================
# Class for a group element on a canvas with possibly geopgraphic positions
# which automatically get projected according to the specified projection.
# Each map consists of an arbitrary number of layers (canvas groups)
#
var Map = {
df_controller: nil,
new: func(ghost)
{
return { parents: [Map, Group.new(ghost)], layers:{}, controller:nil }.setController();
},
del: func()
{
#print("canvas.Map.del()");
if (me.controller != nil)
me.controller.del(me);
foreach (var k; keys(me.layers)) {
me.layers[k].del();
delete(me.layers, k);
}
# call inherited 'del'
me.parents = subvec(me.parents,1);
me.del();
},
setController: func(controller=nil, arg...)
{
if (me.controller != nil) me.controller.del(me);
if (controller == nil)
controller = Map.df_controller;
elsif (typeof(controller) != 'hash')
controller = Map.Controller.get(controller);
if (controller == nil) {
me.controller = nil;
} else {
if (!isa(controller, Map.Controller))
die("OOP error: controller needs to inherit from Map.Controller");
me.controller = call(controller.new, [me]~arg, controller, var err=[]); # try...
if (size(err)) {
if (err[0] != "No such member: new") # ... and either catch or rethrow
die(err[0]);
else
me.controller = controller;
} elsif (me.controller == nil) {
me.controller = controller;
} elsif (me.controller != controller and !isa(me.controller, controller))
die("OOP error: created instance needs to inherit from or be the specific controller class");
}
return me;
},
addLayer: func(factory, type_arg=nil, priority=nil, style=nil, options=nil, visible=1)
{
if(contains(me.layers, type_arg))
printlog("warn", "addLayer() warning: overwriting existing layer:", type_arg);
# Argument handling
if (type_arg != nil) {
var layer = factory.new(type:type_arg, group:me, map:me, style:style, options:options, visible:visible);
var type = factory.get(type_arg);
var key = type_arg;
} else {
var layer = factory.new(group:me, map:me, style:style, options:options, visible:visible);
var type = factory;
var key = factory.type;
}
me.layers[type_arg] = layer;
if (priority == nil)
priority = type.df_priority;
if (priority != nil)
layer.group.setInt("z-index", priority);
return layer; # return new layer to caller() so that we can directly work with it, i.e. to register event handlers (panning/zooming)
},
getLayer: func(type_arg) me.layers[type_arg],
setRange: func(range) me.set("range",range),
getRange: func me.get('range'),
setPos: func(lat, lon, hdg=nil, range=nil, alt=nil)
{
# TODO: also propage setPos events to layers and symbols (e.g. for offset maps)
me.set("ref-lat", lat);
me.set("ref-lon", lon);
if (hdg != nil)
me.set("hdg", hdg);
if (range != nil)
me.setRange(range);
if (alt != nil)
me.set("altitude", alt);
},
getPos: func
{
return [me.get("ref-lat"),
me.get("ref-lon"),
me.get("hdg"),
me.get("range"),
me.get("altitude")];
},
getLat: func me.get("ref-lat"),
getLon: func me.get("ref-lon"),
getHdg: func me.get("hdg"),
getAlt: func me.get("altitude"),
getRange: func me.get("range"),
getLatLon: func [me.get("ref-lat"), me.get("ref-lon")],
# N.B.: This always returns the same geo.Coord object,
# so its values can and will change at any time (call
# update() on the coord to ensure it is up-to-date,
# which basically calls this method again).
getPosCoord: func
{
var (lat, lon) = (me.get("ref-lat"),
me.get("ref-lon"));
var alt = me.get("altitude");
if (lat == nil or lon == nil) {
if (contains(me, "coord")) {
debug.warn("canvas.Map: lost ref-lat and/or ref-lon source");
}
return nil;
}
if (!contains(me, "coord")) {
me.coord = geo.Coord.new();
var m = me;
me.coord.update = func m.getPosCoord();
}
me.coord.set_latlon(lat,lon,alt or 0);
return me.coord;
},
# Update each layer on this Map. Called by
# me.controller.
update: func(predicate=nil)
{
var t = systime();
foreach (var l; keys(me.layers)) {
var layer = me.layers[l];
# Only update if the predicate allows
if (predicate == nil or predicate(layer))
layer.update();
}
printlog(_MP_dbg_lvl, "Took "~((systime()-t)*1000)~"ms to update map()");
return me;
},
};
# Text
# ==============================================================================
# Class for a text element on a canvas
#
var Text = {
new: func(ghost)
{
return { parents: [Text, Element.new(ghost)] };
},
# Set the text
setText: func(text)
{
me.set("text", typeof(text) == 'scalar' ? text : "");
},
appendText: func(text)
{
me.set("text", (me.get("text") or "") ~ (typeof(text) == 'scalar' ? text : ""));
},
# Set alignment
#
# @param align String, one of:
# left-top
# left-center
# left-bottom
# center-top
# center-center
# center-bottom
# right-top
# right-center
# right-bottom
# left-baseline
# center-baseline
# right-baseline
# left-bottom-baseline
# center-bottom-baseline
# right-bottom-baseline
#
setAlignment: func(align)
{
me.set("alignment", align);
},
# Set the font size
setFontSize: func(size, aspect = 1)
{
me.setDouble("character-size", size);
me.setDouble("character-aspect-ratio", aspect);
},
# Set font (by name of font file)
setFont: func(name)
{
me.set("font", name);
},
# Enumeration of values for drawing mode:
TEXT: 0x01, # The text itself
BOUNDINGBOX: 0x02, # A bounding box (only lines)
FILLEDBOUNDINGBOX: 0x04, # A filled bounding box
ALIGNMENT: 0x08, # Draw a marker (cross) at the position of the text
# Set draw mode. Binary combination of the values above. Since I haven't found
# a bitwise or we have to use a + instead.
#
# eg. my_text.setDrawMode(Text.TEXT + Text.BOUNDINGBOX);
setDrawMode: func(mode)
{
me.setInt("draw-mode", mode);
},
# Set bounding box padding
setPadding: func(pad)
{
me.setDouble("padding", pad);
},
setMaxWidth: func(w)
{
me.setDouble("max-width", w);
},
setColor: func me.set('fill', _getColor(arg)),
getColor: func me.get('fill'),
setColorFill: func me.set('background', _getColor(arg)),
getColorFill: func me.get('background'),
};
# Path
# ==============================================================================
# Class for an (OpenVG) path element on a canvas
#
var Path = {
# Path segment commands (VGPathCommand)
VG_CLOSE_PATH: 0,
VG_MOVE_TO: 2,
VG_MOVE_TO_ABS: 2,
VG_MOVE_TO_REL: 3,
VG_LINE_TO: 4,
VG_LINE_TO_ABS: 4,
VG_LINE_TO_REL: 5,
VG_HLINE_TO: 6,
VG_HLINE_TO_ABS: 6,
VG_HLINE_TO_REL: 7,
VG_VLINE_TO: 8,
VG_VLINE_TO_ABS: 8,
VG_VLINE_TO_REL: 9,
VG_QUAD_TO: 10,
VG_QUAD_TO_ABS: 10,
VG_QUAD_TO_REL: 11,
VG_CUBIC_TO: 12,
VG_CUBIC_TO_ABS: 12,
VG_CUBIC_TO_REL: 13,
VG_SQUAD_TO: 14,
VG_SQUAD_TO_ABS: 14,
VG_SQUAD_TO_REL: 15,
VG_SCUBIC_TO: 16,
VG_SCUBIC_TO_ABS: 16,
VG_SCUBIC_TO_REL: 17,
VG_SCCWARC_TO: 20, # Note that CC and CCW commands are swapped. This is
VG_SCCWARC_TO_ABS:20, # needed due to the different coordinate systems used.
VG_SCCWARC_TO_REL:21, # In OpenVG values along the y-axis increase from bottom
VG_SCWARC_TO: 18, # to top, whereas in the Canvas system it is flipped.
VG_SCWARC_TO_ABS: 18,
VG_SCWARC_TO_REL: 19,
VG_LCCWARC_TO: 24,
VG_LCCWARC_TO_ABS:24,
VG_LCCWARC_TO_REL:25,
VG_LCWARC_TO: 22,
VG_LCWARC_TO_ABS: 22,
VG_LCWARC_TO_REL: 23,
# Number of coordinates per command
num_coords: [
0, 0, # VG_CLOSE_PATH
2, 2, # VG_MOVE_TO
2, 2, # VG_LINE_TO
1, 1, # VG_HLINE_TO
1, 1, # VG_VLINE_TO
4, 4, # VG_QUAD_TO
6, 6, # VG_CUBIC_TO
2, 2, # VG_SQUAD_TO
4, 4, # VG_SCUBIC_TO
5, 5, # VG_SCCWARC_TO
5, 5, # VG_SCWARC_TO
5, 5, # VG_LCCWARC_TO
5, 5 # VG_LCWARC_TO
],
#
new: func(ghost)
{
return {
parents: [Path, Element.new(ghost)],
_first_cmd: 0,
_first_coord: 0,
_last_cmd: -1,
_last_coord: -1
};
},
# Remove all existing path data
reset: func
{
me._node.removeChildren('cmd', 0);
me._node.removeChildren('coord', 0);
me._node.removeChildren('coord-geo', 0);
me._first_cmd = 0;
me._first_coord = 0;
me._last_cmd = -1;
me._last_coord = -1;
return me;
},
# Set the path data (commands and coordinates)
setData: func(cmds, coords)
{
me.reset();
me._node.setValues({cmd: cmds, coord: coords});
me._last_cmd = size(cmds) - 1;
me._last_coord = size(coords) - 1;
return me;
},
setDataGeo: func(cmds, coords)
{
me.reset();
me._node.setValues({cmd: cmds, 'coord-geo': coords});
me._last_cmd = size(cmds) - 1;
me._last_coord = size(coords) - 1;
return me;
},
# Add a path segment
addSegment: func(cmd, coords...)
{
var coords = _arg2valarray(coords);
var num_coords = me.num_coords[cmd];
if( size(coords) != num_coords )
debug.warn
(
"Invalid number of arguments (expected " ~ num_coords ~ ")"
);
else
{
me.setInt("cmd[" ~ (me._last_cmd += 1) ~ "]", cmd);
for(var i = 0; i < num_coords; i += 1)
me.setDouble("coord[" ~ (me._last_coord += 1) ~ "]", coords[i]);
}
return me;
},
addSegmentGeo: func(cmd, coords...)
{
var coords = _arg2valarray(coords);
var num_coords = me.num_coords[cmd];
if( size(coords) != num_coords )
debug.warn
(
"Invalid number of arguments (expected " ~ num_coords ~ ")"
);
else
{
me.setInt("cmd[" ~ (me._last_cmd += 1) ~ "]", cmd);
for(var i = 0; i < num_coords; i += 1)
me.set("coord-geo[" ~ (me._last_coord += 1) ~ "]", coords[i]);
}
return me;
},
# Remove first segment
pop_front: func me._removeSegment(1),
# Remove last segment
pop_back: func me._removeSegment(0),
# Get the number of segments
getNumSegments: func()
{
return me._last_cmd - me._first_cmd + 1;
},
# Get the number of coordinates (each command has 0..n coords)
getNumCoords: func()
{
return me._last_coord - me._first_coord + 1;
},
# Move path cursor
moveTo: func me.addSegment(me.VG_MOVE_TO_ABS, arg),
move: func me.addSegment(me.VG_MOVE_TO_REL, arg),
# Add a line
lineTo: func me.addSegment(me.VG_LINE_TO_ABS, arg),
line: func me.addSegment(me.VG_LINE_TO_REL, arg),
# Add a horizontal line
horizTo: func me.addSegment(me.VG_HLINE_TO_ABS, arg),
horiz: func me.addSegment(me.VG_HLINE_TO_REL, arg),
# Add a vertical line
vertTo: func me.addSegment(me.VG_VLINE_TO_ABS, arg),
vert: func me.addSegment(me.VG_VLINE_TO_REL, arg),
# Add a quadratic Bézier curve
quadTo: func me.addSegment(me.VG_QUAD_TO_ABS, arg),
quad: func me.addSegment(me.VG_QUAD_TO_REL, arg),
# Add a cubic Bézier curve
cubicTo: func me.addSegment(me.VG_CUBIC_TO_ABS, arg),
cubic: func me.addSegment(me.VG_CUBIC_TO_REL, arg),
# Add a smooth quadratic Bézier curve
squadTo: func me.addSegment(me.VG_SQUAD_TO_ABS, arg),
squad: func me.addSegment(me.VG_SQUAD_TO_REL, arg),
# Add a smooth cubic Bézier curve
scubicTo: func me.addSegment(me.VG_SCUBIC_TO_ABS, arg),
scubic: func me.addSegment(me.VG_SCUBIC_TO_REL, arg),
# Draw an elliptical arc (shorter counter-clockwise arc)
arcSmallCCWTo: func me.addSegment(me.VG_SCCWARC_TO_ABS, arg),
arcSmallCCW: func me.addSegment(me.VG_SCCWARC_TO_REL, arg),
# Draw an elliptical arc (shorter clockwise arc)
arcSmallCWTo: func me.addSegment(me.VG_SCWARC_TO_ABS, arg),
arcSmallCW: func me.addSegment(me.VG_SCWARC_TO_REL, arg),
# Draw an elliptical arc (longer counter-clockwise arc)
arcLargeCCWTo: func me.addSegment(me.VG_LCCWARC_TO_ABS, arg),
arcLargeCCW: func me.addSegment(me.VG_LCCWARC_TO_REL, arg),
# Draw an elliptical arc (shorter clockwise arc)
arcLargeCWTo: func me.addSegment(me.VG_LCWARC_TO_ABS, arg),
arcLargeCW: func me.addSegment(me.VG_LCWARC_TO_REL, arg),
# Close the path (implicit lineTo to first point of path)
close: func me.addSegment(me.VG_CLOSE_PATH),
# Add a (rounded) rectangle to the path
#
# @param x Position of left border
# @param y Position of top border
# @param w Width
# @param h Height
# @param cfg Optional settings (eg. {"border-top-radius": 5})
rect: func(x, y, w, h, cfg = nil)
{
var opts = (cfg != nil) ? cfg : {};
# resolve border-[top-,bottom-][left-,right-]radius
var br = opts["border-radius"];
if( typeof(br) == 'scalar' )
br = [br, br];
var _parseRadius = func(id)
{
if( (var r = opts["border-" ~ id ~ "-radius"]) == nil )
{
# parse top, bottom, left, right separate if no value specified for
# single corner
foreach(var s; ["top", "bottom", "left", "right"])
{
if( id.starts_with(s ~ "-") )
{
r = opts["border-" ~ s ~ "-radius"];
break;
}
}
}
if( r == nil )
return br;
else if( typeof(r) == 'scalar' )
return [r, r];
else
return r;
};
# top-left
if( (var r = _parseRadius("top-left")) != nil )
{
me.moveTo(x, y + r[1])
.arcSmallCWTo(r[0], r[1], 0, x + r[0], y);
}
else
me.moveTo(x, y);
# top-right
if( (r = _parseRadius("top-right")) != nil )
{
me.horizTo(x + w - r[0])
.arcSmallCWTo(r[0], r[1], 0, x + w, y + r[1]);
}
else
me.horizTo(x + w);
# bottom-right
if( (r = _parseRadius("bottom-right")) != nil )
{
me.vertTo(y + h - r[1])
.arcSmallCWTo(r[0], r[1], 0, x + w - r[0], y + h);
}
else
me.vertTo(y + h);
# bottom-left
if( (r = _parseRadius("bottom-left")) != nil )
{
me.horizTo(x + r[0])
.arcSmallCWTo(r[0], r[1], 0, x, y + h - r[1]);
}
else
me.horizTo(x);
return me.close();
},
setColor: func me.setStroke(_getColor(arg)),
getColor: func me.getStroke(),
setColorFill: func me.setFill(_getColor(arg)),
getColorFill: func me.getColorFill(),
setFill: func(fill)
{
me.set('fill', fill);
},
setStroke: func(stroke)
{
me.set('stroke', stroke);
},
getStroke: func me.get('stroke'),
setStrokeLineWidth: func(width)
{
me.setDouble('stroke-width', width);
},
# Set stroke linecap
#
# @param linecap String, "butt", "round" or "square"
#
# See http://www.w3.org/TR/SVG/painting.html#StrokeLinecapProperty for details
setStrokeLineCap: func(linecap)
{
me.set('stroke-linecap', linecap);
},
# Set stroke dasharray
#
# @param pattern Vector, Vector of alternating dash and gap lengths
# [on1, off1, on2, ...]
setStrokeDashArray: func(pattern)
{
if( typeof(pattern) == 'vector' )
me.set('stroke-dasharray', string.join(',', pattern));
else
debug.warn("setStrokeDashArray: vector expected!");
return me;
},
# private:
_removeSegment: func(front)
{
if( me.getNumSegments() < 1 )
{
debug.warn("No segment available");
return me;
}
var cmd = front ? me._first_cmd : me._last_cmd;
var num_coords = me.num_coords[ me.get("cmd[" ~ cmd ~ "]") ];
if( me.getNumCoords() < num_coords )
{
debug.warn("To few coords available");
}
me._node.removeChild("cmd", cmd);
var first_coord = front ? me._first_coord : me._last_coord - num_coords + 1;
for(var i = 0; i < num_coords; i += 1)
me._node.removeChild("coord", first_coord + i);
if( front )
{
me._first_cmd += 1;
me._first_coord += num_coords;
}
else
{
me._last_cmd -= 1;
me._last_coord -= num_coords;
}
return me;
},
};
# Image
# ==============================================================================
# Class for an image element on a canvas
#
var Image = {
new: func(ghost)
{
return {parents: [Image, Element.new(ghost)]};
},
# Set image file to be used
#
# @param file Path to file or canvas (Use canvas://... for canvas, eg.
# canvas://by-index/texture[0])
setFile: func(file)
{
me.set("src", file);
},
# Set rectangular region of source image to be used
#
# @param left Rectangle minimum x coordinate
# @param top Rectangle minimum y coordinate
# @param right Rectangle maximum x coordinate
# @param bottom Rectangle maximum y coordinate
# @param normalized Whether to use normalized ([0,1]) or image
# ([0, image_width]/[0, image_height]) coordinates
setSourceRect: func
{
# Work with both positional arguments and named arguments.
# Support first argument being a vector instead of four separate ones.
if (size(arg) == 1)
arg = arg[0];
elsif (size(arg) and size(arg) < 4 and typeof(arg[0]) == 'vector')
arg = arg[0]~arg[1:];
if (!contains(caller(0)[0], "normalized")) {
if (size(arg) > 4)
var normalized = arg[4];
else var normalized = 1;
}
if (size(arg) >= 3)
var (left,top,right,bottom) = arg;
me._node.getNode("source", 1).setValues({
left: left,
top: top,
right: right,
bottom: bottom,
normalized: normalized
});
return me;
},
# Set size of image element
#
# @param width
# @param height
# - or -
# @param size ([width, height])
setSize: func
{
me._node.setValues({size: _arg2valarray(arg)});
return me;
}
};
# Element factories used by #Group elements to create children
Group._element_factories = {
"group": Group.new,
"map": Map.new,
"text": Text.new,
"path": Path.new,
"image": Image.new
};
# Canvas
# ==============================================================================
# Class for a canvas
#
var Canvas = {
# Place this canvas somewhere onto the object. Pass criterions for placement
# as a hash, eg:
#
# my_canvas.addPlacement({
# "texture": "EICAS.png",
# "node": "PFD-Screen",
# "parent": "Some parent name"
# });
#
# Note that we can choose whichever of the three filter criterions we use for
# matching the target object for our placement. If none of the three fields is
# given every texture of the model will be replaced.
addPlacement: func(vals)
{
var placement = me._node.addChild("placement", 0, 0);
placement.setValues(vals);
return placement;
},
# Create a new group with the given name
#
# @param id Optional id/name for the group
createGroup: func(id = nil)
{
return Group.new(me._createGroup(id));
},
# Get the group with the given name
getGroup: func(id)
{
return Group.new(me._getGroup(id));
},
# Set the background color
#
# @param color Vector of 3 or 4 values in [0, 1]
setColorBackground: func me.set('background', _getColor(arg)),
getColorBackground: func me.get('background'),
# Get path of canvas to be used eg. in Image::setFile
getPath: func()
{
return "canvas://by-index/texture[" ~ me._node.getIndex() ~ "]";
},
# Destructor
#
# releases associated canvas and makes this object unusable
del: func
{
me._node.remove();
me.parents = nil; # ensure all ghosts get destroyed
}
};
# @param g Canvas ghost
var wrapCanvas = func(g)
{
if( g != nil and g._impl == nil )
g._impl = {
parents: [PropertyElement, Canvas],
_node: props.wrapNode(g._node_ghost)
};
return g;
}
# Create a new canvas. Pass parameters as hash, eg:
#
# var my_canvas = canvas.new({
# "name": "PFD-Test",
# "size": [512, 512],
# "view": [768, 1024],
# "mipmapping": 1
# });
var new = func(vals)
{
var m = wrapCanvas(_newCanvasGhost());
m._node.setValues(vals);
return m;
};
# Get the first existing canvas with the given name
#
# @param name Name of the canvas
# @return #Canvas, if canvas with #name exists
# nil, otherwise
var get = func(arg)
{
if( isa(arg, props.Node) )
var node = arg;
else if( typeof(arg) == "hash" )
var node = props.Node.new(arg);
else
die("canvas.new: Invalid argument.");
return wrapCanvas(_getCanvasGhost(node._g));
};
var getDesktop = func()
{
return Group.new(_getDesktopGhost());
};