torque/vendor/leaflet.carto.js

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2013-07-24 02:21:10 +08:00
// monkey patch less classes
tree.Value.prototype.toJS = function() {
var v = this.value[0].value[0];
val = v.toString();
if(v.is === "color") {
val = "'" + val + "'";
}
return "_value = " + val + ";";
};
Object.defineProperty(tree.Filterset.prototype, 'toJS', {
enumerable: false,
value: function(env) {
var opMap = {
'=': '==='
};
return _.map(this, function(filter) {
var op = filter.op;
if(op in opMap) {
op = opMap[op];
}
var val = filter.val;
if(filter._val !== undefined) {
val = filter._val.toString(true);
}
var attrs = "data";
return attrs + "." + filter.key + " " + op + " " + val;
}).join(' && ');
}
});
tree.Definition.prototype.toJS = function() {
var shaderAttrs = {};
// merge conditions from filters with zoom condition of the
// definition
var zoom = "(" + this.zoom + " & (1 << ctx.zoom))";
var _if = this.filters.toJS()
if(_if && _if.length > 0) {
_if += " && " + zoom;
} else {
_if = zoom;
}
_.each(this.rules, function(rule) {
if(rule instanceof tree.Rule) {
shaderAttrs[rule.name] = shaderAttrs[rule.name] || [];
if (_if) {
shaderAttrs[rule.name].push(
"if(" + _if + "){" + rule.value.toJS() + "}"
);
} else {
shaderAttrs[rule.name].push(rule.value.toJS());
}
} else {
if (rule instanceof tree.Ruleset) {
var sh = rule.toJS();
for(var v in sh) {
shaderAttrs[v] = shaderAttrs[v] || [];
for(var attr in sh[v]) {
shaderAttrs[v].push(sh[v][attr]);
}
}
}
}
});
return shaderAttrs;
};
function CartoCSS(style) {
if(style) {
this.setStyle(style);
}
}
CartoCSS.Layer = function(shader, options) {
this.options = options;
this.shader = shader;
};
CartoCSS.renderers = {};
CartoCSS.renderers['svg'] = {
maps: {},
transform: function(src) {
var target = {};
for(var i in src) {
var t = this.maps[i];
if(t) {
target[t] = src[i];
} else {
console.log("unknow property: " + i);
}
}
return target;
}
};
(function() {
var renderer = CartoCSS.renderers['svg'];
var ref = window.carto['mapnik-reference'].version.latest;
var s = 'polygon';
for(var i in ref.symbolizers[s]) {
renderer.maps[ref.symbolizers[s][i].css] = i;
}
console.log(renderer.maps);
})();
CartoCSS.Layer.prototype = {
/*
* ``target``: style, 'svg', 'canvas'...
* ``props``: feature properties
* ``context``: rendering properties, i.e zoom
*/
getStyle: function(target, props, context) {
var style = {};
for(var i in this.shader) {
style[i] = this.shader[i](props, context);
}
return CartoCSS.renderers[target].transform(style);
},
/**
* returns true if a feature needs to be rendered
*/
filter: function(featureType, props, context) {
for(var i in this.shader) {
var s = this.shader[i](props, context);
if(s) {
return true;
}
}
return false;
},
transformGeometries: function(geojson) {
return geojson;
}
};
CartoCSS.prototype = {
setStyle: function(style) {
var layers = this.parse(style);
this.layers = layers.map(function(shader) {
return new CartoCSS.Layer(shader);
});
},
getLayers: function() {
return this.layers;
},
_createFn: function(ops) {
var body = ops.join('\n');
return Function("data","ctx", "var _value = null; " + body + "; return _value; ");
},
_compile: function(shader) {
if(typeof shader === 'string') {
shader = eval("(function() { return " + shader +"; })()");
}
this.shader_src = shader;
for(var attr in shader) {
var c = mapper[attr];
if(c) {
this.compiled[c] = eval("(function() { return shader[attr]; })();");
}
}
},
parse: function(cartocss) {
var parse_env = {
frames: [],
errors: [],
error: function(obj) {
this.errors.push(obj);
}
};
var ruleset = null;
try {
ruleset = (new carto.Parser(parse_env)).parse(cartocss);
} catch(e) {
// add the style.mss string to match the response from the server
parse_env.errors.push(e.message);
return;
}
if(ruleset) {
var defs = ruleset.toList(parse_env);
defs.reverse();
// group by elements[0].value::attachment
var layers = {};
for(var i = 0; i < defs.length; ++i) {
var def = defs[i];
var key = def.elements[0] + "::" + def.attachment;
var layer = layers[key] = (layers[key] || {});
var props = def.toJS();
for(var v in props) {
(layer[v] = (layer[v] || [])).push(props[v].join('\n'))
}
}
var ordered_layers = [];
var done = {};
for(var i = 0; i < defs.length; ++i) {
var def = defs[i];
var k = def.elements[0] + "::" + def.attachment;
if(!done[k]) {
var layer = layers[k];
for(var prop in layer) {
layer[prop] = this._createFn(layer[prop]);
}
ordered_layers.push(layer);
done[k] = true;
}
}
return ordered_layers;
}
return null;
}
};