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Merge pull request #790 from tschaub/expression

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Expression parsing
This commit is contained in:
Tim Schaub
2013-06-26 16:40:08 -07:00
parent f06208920f 71153d26d1
commit a7ca22dde0
40 changed files with 4832 additions and 1011 deletions
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21
examples/style-rules.js
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@@ -1,11 +1,8 @@
goog.require('ol.Expression');
goog.require('ol.Map');
goog.require('ol.RendererHint');
goog.require('ol.View2D');
goog.require('ol.control.defaults');
goog.require('ol.filter.Filter');
goog.require('ol.filter.Geometry');
goog.require('ol.geom.GeometryType');
goog.require('ol.expr');
goog.require('ol.layer.Vector');
goog.require('ol.parser.GeoJSON');
goog.require('ol.proj');
@@ -19,21 +16,17 @@ goog.require('ol.style.Text');
var style = new ol.style.Style({rules: [
new ol.style.Rule({
filter: new ol.filter.Filter(function(feature) {
return feature.get('where') == 'outer';
}),
filter: 'where == "outer"',
symbolizers: [
new ol.style.Line({
strokeColor: new ol.Expression('color'),
strokeColor: ol.expr.parse('color'),
strokeWidth: 4,
opacity: 1
})
]
}),
new ol.style.Rule({
filter: new ol.filter.Filter(function(feature) {
return feature.get('where') == 'inner';
}),
filter: 'where == "inner"',
symbolizers: [
new ol.style.Line({
strokeColor: '#013',
@@ -41,14 +34,14 @@ var style = new ol.style.Style({rules: [
opacity: 1
}),
new ol.style.Line({
strokeColor: new ol.Expression('color'),
strokeColor: ol.expr.parse('color'),
strokeWidth: 2,
opacity: 1
})
]
}),
new ol.style.Rule({
filter: new ol.filter.Geometry(ol.geom.GeometryType.POINT),
filter: 'geometryType("point")',
symbolizers: [
new ol.style.Shape({
size: 40,
@@ -56,7 +49,7 @@ var style = new ol.style.Style({rules: [
}),
new ol.style.Text({
color: '#bada55',
text: new ol.Expression('label'),
text: ol.expr.parse('label'),
fontFamily: 'Calibri,sans-serif',
fontSize: 14
})

14
examples/vector-layer.js
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@@ -1,8 +1,7 @@
goog.require('ol.Expression');
goog.require('ol.Map');
goog.require('ol.RendererHint');
goog.require('ol.View2D');
goog.require('ol.filter.Filter');
goog.require('ol.expr');
goog.require('ol.layer.TileLayer');
goog.require('ol.layer.Vector');
goog.require('ol.parser.GeoJSON');
@@ -19,6 +18,11 @@ var raster = new ol.layer.TileLayer({
source: new ol.source.MapQuestOpenAerial()
});
// TODO: discuss scale dependent rules
ol.expr.register('resolution', function() {
return map.getView().getView2D().getResolution();
});
var vector = new ol.layer.Vector({
source: new ol.source.Vector({
projection: ol.proj.get('EPSG:4326')
@@ -32,13 +36,11 @@ var vector = new ol.layer.Vector({
]
}),
new ol.style.Rule({
filter: new ol.filter.Filter(function() {
return map.getView().getResolution() < 5000;
}),
filter: 'resolution() < 5000',
symbolizers: [
new ol.style.Text({
color: '#bada55',
text: new ol.Expression('name'),
text: ol.expr.parse('name'),
fontFamily: 'Calibri,sans-serif',
fontSize: 12
})

69
src/objectliterals.jsdoc
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@@ -519,53 +519,54 @@
/**
* @typedef {Object} ol.style.IconOptions
* @property {string|ol.Expression} url Icon image url.
* @property {number|ol.Expression|undefined} width Width of the icon in pixels.
* Default is the width of the icon image.
* @property {number|ol.Expression|undefined} height Height of the icon in
* pixels. Default is the height of the icon image.
* @property {number|ol.Expression|undefined} opacity Icon opacity (0-1).
* @property {number|ol.Expression|undefined} rotation Rotation in degrees
* (0-360).
* @property {string|ol.expr.Expression} url Icon image url.
* @property {number|ol.expr.Expression|undefined} width Width of the icon
* in pixels. Default is the width of the icon image.
* @property {number|ol.expr.Expression|undefined} height Height of the
* icon in pixels. Default is the height of the icon image.
* @property {number|ol.expr.Expression|undefined} opacity Icon opacity
* (0-1).
* @property {number|ol.expr.Expression|undefined} rotation Rotation in
* degrees (0-360).
*/
/**
* @typedef {Object} ol.style.LineOptions
* @property {string|ol.Expression|undefined} strokeColor Stroke color as hex
* color code.
* @property {number|ol.Expression|undefined} strokeWidth Stroke width in
* pixels.
* @property {number|ol.Expression|undefined} opacity Opacity (0-1).
* @property {string|ol.expr.Expression|undefined} strokeColor Stroke
* color as hex color code.
* @property {number|ol.expr.Expression|undefined} strokeWidth Stroke
* width in pixels.
* @property {number|ol.expr.Expression|undefined} opacity Opacity (0-1).
*/
/**
* @typedef {Object} ol.style.PolygonOptions
* @property {string|ol.Expression|undefined} fillColor Fill color as hex color
* code.
* @property {string|ol.Expression|undefined} strokeColor Stroke color as hex
* color code.
* @property {number|ol.Expression|undefined} strokeWidth Stroke width in
* pixels.
* @property {number|ol.Expression|undefined} opacity Opacity (0-1).
* @property {string|ol.expr.Expression|undefined} fillColor Fill color as
* hex color code.
* @property {string|ol.expr.Expression|undefined} strokeColor Stroke
* color as hex color code.
* @property {number|ol.expr.Expression|undefined} strokeWidth Stroke
* width in pixels.
* @property {number|ol.expr.Expression|undefined} opacity Opacity (0-1).
*/
/**
* @typedef {Object} ol.style.RuleOptions
* @property {ol.filter.Filter|undefined} filter Filter.
* @property {ol.expr.Expression|string|undefined} filter Filter.
* @property {Array.<ol.style.Symbolizer>|undefined} symbolizers Symbolizers.
*/
/**
* @typedef {Object} ol.style.ShapeOptions
* @property {ol.style.ShapeType|undefined} type Type.
* @property {number|ol.Expression|undefined} size Size in pixels.
* @property {string|ol.Expression|undefined} fillColor Fill color as hex color
* code.
* @property {string|ol.Expression|undefined} strokeColor Stroke color as hex
* color code.
* @property {number|ol.Expression|undefined} strokeWidth Stroke width in
* pixels.
* @property {number|ol.Expression|undefined} opacity Opacity (0-1).
* @property {number|ol.expr.Expression|undefined} size Size in pixels.
* @property {string|ol.expr.Expression|undefined} fillColor Fill color as
* hex color code.
* @property {string|ol.expr.Expression|undefined} strokeColor Stroke
* color as hex color code.
* @property {number|ol.expr.Expression|undefined} strokeWidth Stroke
* width in pixels.
* @property {number|ol.expr.Expression|undefined} opacity Opacity (0-1).
*/
/**
@@ -575,11 +576,11 @@
/**
* @typedef {Object} ol.style.TextOptions
* @property {string|ol.Expression|undefined} color Color.
* @property {string|ol.Expression|undefined} fontFamily Font family.
* @property {number|ol.Expression|undefined} fontSize Font size in pixels.
* @property {string|ol.Expression} text Text for the label.
* @property {number|ol.Expression|undefined} opacity Opacity (0-1).
* @property {string|ol.expr.Expression|undefined} color Color.
* @property {string|ol.expr.Expression|undefined} fontFamily Font family.
* @property {number|ol.expr.Expression|undefined} fontSize Font size in pixels.
* @property {string|ol.expr.Expression} text Text for the label.
* @property {number|ol.expr.Expression|undefined} opacity Opacity (0-1).
*/
/**

3
src/ol/expr.jsdoc Normal file
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@@ -0,0 +1,3 @@
/**
* @namespace ol.expr
*/

2
src/ol/expr/expression.exports Normal file
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@@ -0,0 +1,2 @@
@exportSymbol ol.expr.parse
@exportSymbol ol.expr.register

158
src/ol/expr/expression.js Normal file
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@@ -0,0 +1,158 @@
goog.provide('ol.expr');
goog.provide('ol.expr.functions');
goog.require('ol.Extent');
goog.require('ol.Feature');
goog.require('ol.expr.Call');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Identifier');
goog.require('ol.expr.Parser');
goog.require('ol.extent');
goog.require('ol.geom.GeometryType');
/**
* Evaluate an expression with a feature. The feature attributes will be used
* as the evaluation scope. The `ol.expr.lib` functions will be used as
* function scope. The feature itself will be used as the `this` argument.
*
* @param {ol.expr.Expression} expr The expression.
* @param {ol.Feature=} opt_feature The feature.
* @return {*} The result of the expression.
*/
ol.expr.evaluateFeature = function(expr, opt_feature) {
var result;
if (goog.isDef(opt_feature)) {
result = expr.evaluate(
opt_feature.getAttributes(), ol.expr.lib, opt_feature);
} else {
result = expr.evaluate();
}
return result;
};
/**
* Parse an expression.
* @param {string} source The expression source (e.g. `'foo + 2'`).
* @return {ol.expr.Expression} An expression instance that can be
* evaluated within some scope to provide a value.
*/
ol.expr.parse = function(source) {
var parser = new ol.expr.Parser();
return parser.parse(source);
};
/**
* Register a library function to be used in expressions.
* @param {string} name The function name (e.g. 'myFunc').
* @param {function(this:ol.Feature)} func The function to be called in an
* expression. This function will be called with a feature as the `this`
* argument when the expression is evaluated in the context of a features.
*/
ol.expr.register = function(name, func) {
ol.expr.lib[name] = func;
};
/**
* Determines whether an expression is a call expression that calls one of the
* `ol.expr.lib` functions.
*
* @param {ol.expr.Expression} expr The candidate expression.
* @return {string|undefined} If the candidate expression is a call to a lib
* function, the return will be the function name. If not, the return will be
* `undefined`.
*/
ol.expr.isLibCall = function(expr) {
var name;
if (expr instanceof ol.expr.Call) {
var callee = expr.getCallee();
if (callee instanceof ol.expr.Identifier) {
name = callee.getName();
if (!ol.expr.lib.hasOwnProperty(name)) {
name = undefined;
}
}
}
return name;
};
/**
* Library of well-known functions. These are available to expressions parsed
* with `ol.expr.parse`.
*
* @type {Object.<string, function(...)>}
*/
ol.expr.lib = {};
/**
* Enumeration of library function names.
*
* @enum {string}
*/
ol.expr.functions = {
EXTENT: 'extent',
FID: 'fid',
GEOMETRY_TYPE: 'geometryType'
};
/**
* Determine if a feature's extent intersects the provided extent.
* @param {number} minX Minimum x-coordinate value.
* @param {number} maxX Maximum x-coordinate value.
* @param {number} minY Minimum y-coordinate value.
* @param {number} maxY Maximum y-coordinate value.
* @return {boolean} The provided extent intersects the feature's extent.
* @this {ol.Feature}
*/
ol.expr.lib[ol.expr.functions.EXTENT] = function(minX, maxX, minY, maxY) {
var intersects = false;
var geometry = this.getGeometry();
if (geometry) {
intersects = ol.extent.intersects(geometry.getBounds(),
[minX, maxX, minY, maxY]);
}
return intersects;
};
/**
* Determine if the feature identifier matches any of the provided values.
* @param {...string} var_args Feature identifiers.
* @return {boolean} The feature's identifier matches one of the given values.
* @this {ol.Feature}
*/
ol.expr.lib[ol.expr.functions.FID] = function(var_args) {
var matches = false;
var id = this.getFeatureId();
if (goog.isDef(id)) {
for (var i = 0, ii = arguments.length; i < ii; ++i) {
if (arguments[i] === id) {
matches = true;
break;
}
}
}
return matches;
};
/**
* Determine if a feature's default geometry is of the given type.
* @param {ol.geom.GeometryType} type Geometry type.
* @return {boolean} The feature's default geometry is of the given type.
* @this {ol.Feature}
*/
ol.expr.lib[ol.expr.functions.GEOMETRY_TYPE] = function(type) {
var same = false;
var geometry = this.getGeometry();
if (geometry) {
same = geometry.getType() === type;
}
return same;
};

631
src/ol/expr/expressions.js Normal file
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@@ -0,0 +1,631 @@
goog.provide('ol.expr.Call');
goog.provide('ol.expr.Comparison');
goog.provide('ol.expr.ComparisonOp');
goog.provide('ol.expr.Expression');
goog.provide('ol.expr.Identifier');
goog.provide('ol.expr.Literal');
goog.provide('ol.expr.Logical');
goog.provide('ol.expr.LogicalOp');
goog.provide('ol.expr.Math');
goog.provide('ol.expr.MathOp');
goog.provide('ol.expr.Member');
goog.provide('ol.expr.Not');
/**
* Base class for all expressions. Instances of ol.expr.Expression
* correspond to a limited set of ECMAScript 5.1 expressions.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11
*
* This base class should not be constructed directly. Instead, use one of
* the subclass constructors.
*
* @constructor
*/
ol.expr.Expression = function() {};
/**
* Evaluate the expression and return the result.
*
* @param {Object=} opt_scope Evaluation scope. All properties of this object
* will be available as variables when evaluating the expression. If not
* provided, `null` will be used.
* @param {Object=} opt_fns Optional scope for looking up functions. If not
* provided, functions will be looked in the evaluation scope.
* @param {Object=} opt_this Object to use as this when evaluating call
* expressions. If not provided, `this` will resolve to a new object.
* @return {*} Result of the expression.
*/
ol.expr.Expression.prototype.evaluate = goog.abstractMethod;
/**
* A call expression (e.g. `foo(bar)`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.Expression} callee An expression that resolves to a
* function.
* @param {Array.<ol.expr.Expression>} args Arguments.
*/
ol.expr.Call = function(callee, args) {
/**
* @type {ol.expr.Expression}
* @private
*/
this.callee_ = callee;
/**
* @type {Array.<ol.expr.Expression>}
* @private
*/
this.args_ = args;
};
goog.inherits(ol.expr.Call, ol.expr.Expression);
/**
* @inheritDoc
*/
ol.expr.Call.prototype.evaluate = function(opt_scope, opt_fns, opt_this) {
var fnScope = goog.isDefAndNotNull(opt_fns) ? opt_fns : opt_scope;
var fn = this.callee_.evaluate(fnScope);
if (!fn || !goog.isFunction(fn)) {
throw new Error('Expected function but found ' + fn);
}
var thisArg = goog.isDef(opt_this) ? opt_this : {};
var len = this.args_.length;
var values = new Array(len);
for (var i = 0; i < len; ++i) {
values[i] = this.args_[i].evaluate(opt_scope, opt_fns, opt_this);
}
return fn.apply(thisArg, values);
};
/**
* Get the argument list.
* @return {Array.<ol.expr.Expression>} The argument.
*/
ol.expr.Call.prototype.getArgs = function() {
return this.args_;
};
/**
* Get the callee expression.
* @return {ol.expr.Expression} The callee expression.
*/
ol.expr.Call.prototype.getCallee = function() {
return this.callee_;
};
/**
* @enum {string}
*/
ol.expr.ComparisonOp = {
EQ: '==',
NEQ: '!=',
STRICT_EQ: '===',
STRICT_NEQ: '!==',
GT: '>',
LT: '<',
GTE: '>=',
LTE: '<='
};
/**
* A comparison expression (e.g. `foo >= 42`, `bar != "chicken"`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.ComparisonOp} operator Comparison operator.
* @param {ol.expr.Expression} left Left expression.
* @param {ol.expr.Expression} right Right expression.
*/
ol.expr.Comparison = function(operator, left, right) {
/**
* @type {ol.expr.ComparisonOp}
* @private
*/
this.operator_ = operator;
/**
* @type {ol.expr.Expression}
* @private
*/
this.left_ = left;
/**
* @type {ol.expr.Expression}
* @private
*/
this.right_ = right;
};
goog.inherits(ol.expr.Comparison, ol.expr.Expression);
/**
* Determine if a given string is a valid comparison operator.
* @param {string} candidate Operator to test.
* @return {boolean} The operator is valid.
*/
ol.expr.Comparison.isValidOp = (function() {
var valid = {};
for (var key in ol.expr.ComparisonOp) {
valid[ol.expr.ComparisonOp[key]] = true;
}
return function isValidOp(candidate) {
return !!valid[candidate];
};
}());
/**
* @inheritDoc
*/
ol.expr.Comparison.prototype.evaluate = function(opt_scope, opt_fns, opt_this) {
var result;
var rightVal = this.right_.evaluate(opt_scope, opt_fns, opt_this);
var leftVal = this.left_.evaluate(opt_scope, opt_fns, opt_this);
var op = this.operator_;
if (op === ol.expr.ComparisonOp.EQ) {
result = leftVal == rightVal;
} else if (op === ol.expr.ComparisonOp.NEQ) {
result = leftVal != rightVal;
} else if (op === ol.expr.ComparisonOp.STRICT_EQ) {
result = leftVal === rightVal;
} else if (op === ol.expr.ComparisonOp.STRICT_NEQ) {
result = leftVal !== rightVal;
} else if (op === ol.expr.ComparisonOp.GT) {
result = leftVal > rightVal;
} else if (op === ol.expr.ComparisonOp.LT) {
result = leftVal < rightVal;
} else if (op === ol.expr.ComparisonOp.GTE) {
result = leftVal >= rightVal;
} else if (op === ol.expr.ComparisonOp.LTE) {
result = leftVal <= rightVal;
} else {
throw new Error('Unsupported comparison operator: ' + this.operator_);
}
return result;
};
/**
* Get the comparison operator.
* @return {string} The comparison operator.
*/
ol.expr.Comparison.prototype.getOperator = function() {
return this.operator_;
};
/**
* Get the left expression.
* @return {ol.expr.Expression} The left expression.
*/
ol.expr.Comparison.prototype.getLeft = function() {
return this.left_;
};
/**
* Get the right expression.
* @return {ol.expr.Expression} The right expression.
*/
ol.expr.Comparison.prototype.getRight = function() {
return this.right_;
};
/**
* An identifier expression (e.g. `foo`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {string} name An identifier name.
*/
ol.expr.Identifier = function(name) {
/**
* @type {string}
* @private
*/
this.name_ = name;
};
goog.inherits(ol.expr.Identifier, ol.expr.Expression);
/**
* @inheritDoc
*/
ol.expr.Identifier.prototype.evaluate = function(opt_scope) {
if (!goog.isDefAndNotNull(opt_scope)) {
throw new Error('Attempt to evaluate identifier with no scope');
}
return opt_scope[this.name_];
};
/**
* Get the identifier name.
* @return {string} The identifier name.
*/
ol.expr.Identifier.prototype.getName = function() {
return this.name_;
};
/**
* A literal expression (e.g. `"chicken"`, `42`, `true`, `null`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {string|number|boolean|null} value A literal value.
*/
ol.expr.Literal = function(value) {
/**
* @type {string|number|boolean|null}
* @private
*/
this.value_ = value;
};
goog.inherits(ol.expr.Literal, ol.expr.Expression);
/**
* @inheritDoc
*/
ol.expr.Literal.prototype.evaluate = function() {
return this.value_;
};
/**
* Get the literal value.
* @return {string|number|boolean|null} The literal value.
*/
ol.expr.Literal.prototype.getValue = function() {
return this.value_;
};
/**
* @enum {string}
*/
ol.expr.LogicalOp = {
AND: '&&',
OR: '||'
};
/**
* A binary logical expression (e.g. `foo && bar`, `bar || "chicken"`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.LogicalOp} operator Logical operator.
* @param {ol.expr.Expression} left Left expression.
* @param {ol.expr.Expression} right Right expression.
*/
ol.expr.Logical = function(operator, left, right) {
/**
* @type {ol.expr.LogicalOp}
* @private
*/
this.operator_ = operator;
/**
* @type {ol.expr.Expression}
* @private
*/
this.left_ = left;
/**
* @type {ol.expr.Expression}
* @private
*/
this.right_ = right;
};
goog.inherits(ol.expr.Logical, ol.expr.Expression);
/**
* Determine if a given string is a valid logical operator.
* @param {string} candidate Operator to test.
* @return {boolean} The operator is valid.
*/
ol.expr.Logical.isValidOp = (function() {
var valid = {};
for (var key in ol.expr.LogicalOp) {
valid[ol.expr.LogicalOp[key]] = true;
}
return function isValidOp(candidate) {
return !!valid[candidate];
};
}());
/**
* @inheritDoc
*/
ol.expr.Logical.prototype.evaluate = function(opt_scope, opt_fns,
opt_this) {
var result;
var rightVal = this.right_.evaluate(opt_scope, opt_fns, opt_this);
var leftVal = this.left_.evaluate(opt_scope, opt_fns, opt_this);
if (this.operator_ === ol.expr.LogicalOp.AND) {
result = leftVal && rightVal;
} else if (this.operator_ === ol.expr.LogicalOp.OR) {
result = leftVal || rightVal;
} else {
throw new Error('Unsupported logical operator: ' + this.operator_);
}
return result;
};
/**
* Get the logical operator.
* @return {string} The logical operator.
*/
ol.expr.Logical.prototype.getOperator = function() {
return this.operator_;
};
/**
* Get the left expression.
* @return {ol.expr.Expression} The left expression.
*/
ol.expr.Logical.prototype.getLeft = function() {
return this.left_;
};
/**
* Get the right expression.
* @return {ol.expr.Expression} The right expression.
*/
ol.expr.Logical.prototype.getRight = function() {
return this.right_;
};
/**
* @enum {string}
*/
ol.expr.MathOp = {
ADD: '+',
SUBTRACT: '-',
MULTIPLY: '*',
DIVIDE: '/',
MOD: '%'
};
/**
* A math expression (e.g. `foo + 42`, `bar % 10`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.MathOp} operator Math operator.
* @param {ol.expr.Expression} left Left expression.
* @param {ol.expr.Expression} right Right expression.
*/
ol.expr.Math = function(operator, left, right) {
/**
* @type {ol.expr.MathOp}
* @private
*/
this.operator_ = operator;
/**
* @type {ol.expr.Expression}
* @private
*/
this.left_ = left;
/**
* @type {ol.expr.Expression}
* @private
*/
this.right_ = right;
};
goog.inherits(ol.expr.Math, ol.expr.Expression);
/**
* Determine if a given string is a valid math operator.
* @param {string} candidate Operator to test.
* @return {boolean} The operator is valid.
*/
ol.expr.Math.isValidOp = (function() {
var valid = {};
for (var key in ol.expr.MathOp) {
valid[ol.expr.MathOp[key]] = true;
}
return function isValidOp(candidate) {
return !!valid[candidate];
};
}());
/**
* @inheritDoc
*/
ol.expr.Math.prototype.evaluate = function(opt_scope, opt_fns, opt_this) {
var result;
var rightVal = this.right_.evaluate(opt_scope, opt_fns, opt_this);
var leftVal = this.left_.evaluate(opt_scope, opt_fns, opt_this);
/**
* TODO: throw if rightVal, leftVal not numbers - this would require the use
* of a concat function for strings but it would let us serialize these as
* math functions where available elsewhere
*/
var op = this.operator_;
if (op === ol.expr.MathOp.ADD) {
result = leftVal + rightVal;
} else if (op === ol.expr.MathOp.SUBTRACT) {
result = Number(leftVal) - Number(rightVal);
} else if (op === ol.expr.MathOp.MULTIPLY) {
result = Number(leftVal) * Number(rightVal);
} else if (op === ol.expr.MathOp.DIVIDE) {
result = Number(leftVal) / Number(rightVal);
} else if (op === ol.expr.MathOp.MOD) {
result = Number(leftVal) % Number(rightVal);
} else {
throw new Error('Unsupported math operator: ' + this.operator_);
}
return result;
};
/**
* Get the math operator.
* @return {string} The math operator.
*/
ol.expr.Math.prototype.getOperator = function() {
return this.operator_;
};
/**
* Get the left expression.
* @return {ol.expr.Expression} The left expression.
*/
ol.expr.Math.prototype.getLeft = function() {
return this.left_;
};
/**
* Get the right expression.
* @return {ol.expr.Expression} The right expression.
*/
ol.expr.Math.prototype.getRight = function() {
return this.right_;
};
/**
* A member expression (e.g. `foo.bar`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.Expression} object An expression that resolves to an
* object.
* @param {ol.expr.Identifier} property Identifier with name of property.
*/
ol.expr.Member = function(object, property) {
/**
* @type {ol.expr.Expression}
* @private
*/
this.object_ = object;
/**
* @type {ol.expr.Identifier}
* @private
*/
this.property_ = property;
};
goog.inherits(ol.expr.Member, ol.expr.Expression);
/**
* @inheritDoc
*/
ol.expr.Member.prototype.evaluate = function(opt_scope, opt_fns,
opt_this) {
var obj = this.object_.evaluate(opt_scope, opt_fns, opt_this);
if (!goog.isObject(obj)) {
throw new Error('Expected member expression to evaluate to an object ' +
'but got ' + obj);
}
return this.property_.evaluate(/** @type {Object} */ (obj));
};
/**
* Get the object expression.
* @return {ol.expr.Expression} The object.
*/
ol.expr.Member.prototype.getObject = function() {
return this.object_;
};
/**
* Get the property expression.
* @return {ol.expr.Identifier} The property.
*/
ol.expr.Member.prototype.getProperty = function() {
return this.property_;
};
/**
* A logical not expression (e.g. `!foo`).
*
* @constructor
* @extends {ol.expr.Expression}
* @param {ol.expr.Expression} argument Expression to negate.
*/
ol.expr.Not = function(argument) {
/**
* @type {ol.expr.Expression}
* @private
*/
this.argument_ = argument;
};
goog.inherits(ol.expr.Not, ol.expr.Expression);
/**
* @inheritDoc
*/
ol.expr.Not.prototype.evaluate = function(opt_scope, opt_fns, opt_this) {
return !this.argument_.evaluate(opt_scope, opt_fns, opt_this);
};
/**
* Get the argument (the negated expression).
* @return {ol.expr.Expression} The argument.
*/
ol.expr.Not.prototype.getArgument = function() {
return this.argument_;
};

900
src/ol/expr/lexer.js Normal file
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@@ -0,0 +1,900 @@
/**
* The logic and naming of methods here are inspired by Esprima (BSD Licensed).
* Esprima (http://esprima.org) includes the following copyright notices:
*
* Copyright (C) 2013 Ariya Hidayat <ariya.hidayat@gmail.com>
* Copyright (C) 2013 Thaddee Tyl <thaddee.tyl@gmail.com>
* Copyright (C) 2012 Ariya Hidayat <ariya.hidayat@gmail.com>
* Copyright (C) 2012 Mathias Bynens <mathias@qiwi.be>
* Copyright (C) 2012 Joost-Wim Boekesteijn <joost-wim@boekesteijn.nl>
* Copyright (C) 2012 Kris Kowal <kris.kowal@cixar.com>
* Copyright (C) 2012 Yusuke Suzuki <utatane.tea@gmail.com>
* Copyright (C) 2012 Arpad Borsos <arpad.borsos@googlemail.com>
* Copyright (C) 2011 Ariya Hidayat <ariya.hidayat@gmail.com>
*/
goog.provide('ol.expr.Char'); // TODO: remove this - see #785
goog.provide('ol.expr.Lexer');
goog.provide('ol.expr.Token');
goog.provide('ol.expr.TokenType');
goog.provide('ol.expr.UnexpectedToken');
goog.require('goog.asserts');
goog.require('goog.debug.Error');
/**
* @enum {number}
*/
ol.expr.Char = {
AMPERSAND: 38,
BACKSLASH: 92,
BANG: 33, // !
CARRIAGE_RETURN: 13,
COMMA: 44,
DIGIT_0: 48,
DIGIT_7: 55,
DIGIT_9: 57,
DOLLAR: 36,
DOUBLE_QUOTE: 34,
DOT: 46,
EQUAL: 61,
FORM_FEED: 0xC,
GREATER: 62,
LEFT_PAREN: 40,
LESS: 60,
LINE_FEED: 10,
LINE_SEPARATOR: 0x2028,
LOWER_A: 97,
LOWER_E: 101,
LOWER_F: 102,
LOWER_X: 120,
LOWER_Z: 122,
MINUS: 45,
NONBREAKING_SPACE: 0xA0,
PARAGRAPH_SEPARATOR: 0x2029,
PERCENT: 37,
PIPE: 124,
PLUS: 43,
RIGHT_PAREN: 41,
SINGLE_QUOTE: 39,
SLASH: 47,
SPACE: 32,
STAR: 42,
TAB: 9,
TILDE: 126,
UNDERSCORE: 95,
UPPER_A: 65,
UPPER_E: 69,
UPPER_F: 70,
UPPER_X: 88,
UPPER_Z: 90,
VERTICAL_TAB: 0xB
};
/**
* @enum {string}
*/
ol.expr.TokenType = {
BOOLEAN_LITERAL: 'Boolean',
EOF: '<end>',
IDENTIFIER: 'Identifier',
KEYWORD: 'Keyword',
NULL_LITERAL: 'Null',
NUMERIC_LITERAL: 'Numeric',
PUNCTUATOR: 'Punctuator',
STRING_LITERAL: 'String',
UNKNOWN: 'Unknown'
};
/**
* @typedef {{type: (ol.expr.TokenType),
* value: (string|number|boolean|null),
* index: (number)}}
*/
ol.expr.Token;
/**
* Lexer constructor. Provides a tokenizer for a limited subset of ECMAScript
* 5.1 expressions (http://www.ecma-international.org/ecma-262/5.1/#sec-11).
*
* @constructor
* @param {string} source Source code.
*/
ol.expr.Lexer = function(source) {
/**
* Source code.
* @type {string}
* @private
*/
this.source_ = source;
/**
* Source length.
* @type {number}
* @private
*/
this.length_ = source.length;
/**
* Current character index.
* @type {number}
* @private
*/
this.index_ = 0;
/**
* Next character index (only set after `peek`ing).
* @type {number}
* @private
*/
this.nextIndex_ = 0;
};
/**
* Scan the next token and throw if it isn't a punctuator that matches input.
* @param {string} value Token value.
*/
ol.expr.Lexer.prototype.expect = function(value) {
var match = this.match(value);
if (!match) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: this.getCurrentChar_(),
index: this.index_
});
}
this.skip();
};
/**
* Increment the current character index.
*
* @param {number} delta Delta by which the index is advanced.
* @private
*/
ol.expr.Lexer.prototype.increment_ = function(delta) {
this.index_ += delta;
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.8.3
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is a decimal digit.
* @private
*/
ol.expr.Lexer.prototype.isDecimalDigit_ = function(code) {
return (
code >= ol.expr.Char.DIGIT_0 &&
code <= ol.expr.Char.DIGIT_9);
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.6.1.2
*
* @param {string} id A string identifier.
* @return {boolean} The identifier is a future reserved word.
* @private
*/
ol.expr.Lexer.prototype.isFutureReservedWord_ = function(id) {
return (
id === 'class' ||
id === 'enum' ||
id === 'export' ||
id === 'extends' ||
id === 'import' ||
id === 'super');
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.8.3
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is a hex digit.
* @private
*/
ol.expr.Lexer.prototype.isHexDigit_ = function(code) {
return this.isDecimalDigit_(code) ||
(code >= ol.expr.Char.LOWER_A &&
code <= ol.expr.Char.LOWER_F) ||
(code >= ol.expr.Char.UPPER_A &&
code <= ol.expr.Char.UPPER_F);
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.6
* Doesn't deal with non-ascii identifiers.
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is a valid identifier part.
* @private
*/
ol.expr.Lexer.prototype.isIdentifierPart_ = function(code) {
return this.isIdentifierStart_(code) ||
(code >= ol.expr.Char.DIGIT_0 &&
code <= ol.expr.Char.DIGIT_9);
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.6
* Doesn't yet deal with non-ascii identifiers.
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is a valid identifier start.
* @private
*/
ol.expr.Lexer.prototype.isIdentifierStart_ = function(code) {
return (code === ol.expr.Char.DOLLAR) ||
(code === ol.expr.Char.UNDERSCORE) ||
(code >= ol.expr.Char.UPPER_A &&
code <= ol.expr.Char.UPPER_Z) ||
(code >= ol.expr.Char.LOWER_A &&
code <= ol.expr.Char.LOWER_Z);
};
/**
* Determine if the given identifier is an ECMAScript keyword. These cannot
* be used as identifiers in programs. There is no real reason these could not
* be used in ol.exprs - but they are reserved for future use.
*
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.6.1.1
*
* @param {string} id Identifier.
* @return {boolean} The identifier is a keyword.
* @private
*/
ol.expr.Lexer.prototype.isKeyword_ = function(id) {
return (
id === 'break' ||
id === 'case' ||
id === 'catch' ||
id === 'continue' ||
id === 'debugger' ||
id === 'default' ||
id === 'delete' ||
id === 'do' ||
id === 'else' ||
id === 'finally' ||
id === 'for' ||
id === 'function' ||
id === 'if' ||
id === 'in' ||
id === 'instanceof' ||
id === 'new' ||
id === 'return' ||
id === 'switch' ||
id === 'this' ||
id === 'throw' ||
id === 'try' ||
id === 'typeof' ||
id === 'var' ||
id === 'void' ||
id === 'while' ||
id === 'with');
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.3
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is a line terminator.
* @private
*/
ol.expr.Lexer.prototype.isLineTerminator_ = function(code) {
return (code === ol.expr.Char.LINE_FEED) ||
(code === ol.expr.Char.CARRIAGE_RETURN) ||
(code === ol.expr.Char.LINE_SEPARATOR) ||
(code === ol.expr.Char.PARAGRAPH_SEPARATOR);
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.8.3
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is an octal digit.
* @private
*/
ol.expr.Lexer.prototype.isOctalDigit_ = function(code) {
return (
code >= ol.expr.Char.DIGIT_0 &&
code <= ol.expr.Char.DIGIT_7);
};
/**
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.2
*
* @param {number} code The unicode of a character.
* @return {boolean} The character is whitespace.
* @private
*/
ol.expr.Lexer.prototype.isWhitespace_ = function(code) {
return (code === ol.expr.Char.SPACE) ||
(code === ol.expr.Char.TAB) ||
(code === ol.expr.Char.VERTICAL_TAB) ||
(code === ol.expr.Char.FORM_FEED) ||
(code === ol.expr.Char.NONBREAKING_SPACE) ||
(code >= 0x1680 && '\u1680\u180E\u2000\u2001\u2002\u2003\u2004\u2005' +
'\u2006\u2007\u2008\u2009\u200A\u202F\u205F\u3000\uFEFF'
.indexOf(String.fromCharCode(code)) > 0);
};
/**
* Get the unicode of the character at the given offset from the current index.
*
* @param {number} delta Offset from current index.
* @return {number} The character code.
* @private
*/
ol.expr.Lexer.prototype.getCharCode_ = function(delta) {
return this.source_.charCodeAt(this.index_ + delta);
};
/**
* Get the character at the current index.
*
* @return {string} The current character.
* @private
*/
ol.expr.Lexer.prototype.getCurrentChar_ = function() {
return this.source_[this.index_];
};
/**
* Get the unicode of the character at the current index.
*
* @return {number} The current character code.
* @private
*/
ol.expr.Lexer.prototype.getCurrentCharCode_ = function() {
return this.getCharCode_(0);
};
/**
* Determine whether the upcoming token matches the given punctuator.
* @param {string} value Punctuator value.
* @return {boolean} The token matches.
*/
ol.expr.Lexer.prototype.match = function(value) {
var token = this.peek();
return (
token.type === ol.expr.TokenType.PUNCTUATOR &&
token.value === value);
};
/**
* Scan the next token.
*
* @return {ol.expr.Token} Next token.
*/
ol.expr.Lexer.prototype.next = function() {
var code = this.skipWhitespace_();
if (this.index_ >= this.length_) {
return {
type: ol.expr.TokenType.EOF,
value: null,
index: this.index_
};
}
// check for common punctuation
if (code === ol.expr.Char.LEFT_PAREN ||
code === ol.expr.Char.RIGHT_PAREN) {
return this.scanPunctuator_(code);
}
// check for string literal
if (code === ol.expr.Char.SINGLE_QUOTE ||
code === ol.expr.Char.DOUBLE_QUOTE) {
return this.scanStringLiteral_(code);
}
// check for identifier
if (this.isIdentifierStart_(code)) {
return this.scanIdentifier_(code);
}
// check dot punctuation or decimal
if (code === ol.expr.Char.DOT) {
if (this.isDecimalDigit_(this.getCharCode_(1))) {
return this.scanNumericLiteral_(code);
}
return this.scanPunctuator_(code);
}
// check for numeric literal
if (this.isDecimalDigit_(code)) {
return this.scanNumericLiteral_(code);
}
// all the rest is punctuation
return this.scanPunctuator_(code);
};
/**
* Peek at the next token, but don't advance the index.
*
* @return {ol.expr.Token} The upcoming token.
*/
ol.expr.Lexer.prototype.peek = function() {
var currentIndex = this.index_;
var token = this.next();
this.nextIndex_ = this.index_;
this.index_ = currentIndex;
return token;
};
/**
* Scan hex literal as numeric token.
*
* @param {number} code The current character code.
* @return {ol.expr.Token} Numeric literal token.
* @private
*/
ol.expr.Lexer.prototype.scanHexLiteral_ = function(code) {
var str = '';
var start = this.index_ - 2;
while (this.index_ < this.length_) {
if (!this.isHexDigit_(code)) {
break;
}
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
}
if (str.length === 0 || this.isIdentifierStart_(code)) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(code),
index: this.index_
});
}
goog.asserts.assert(!isNaN(parseInt('0x' + str, 16)), 'Valid hex: ' + str);
return {
type: ol.expr.TokenType.NUMERIC_LITERAL,
value: parseInt('0x' + str, 16),
index: start
};
};
/**
* Scan identifier token.
*
* @param {number} code The current character code.
* @return {ol.expr.Token} Identifier token.
* @private
*/
ol.expr.Lexer.prototype.scanIdentifier_ = function(code) {
goog.asserts.assert(this.isIdentifierStart_(code),
'Must be called with a valid identifier');
var start = this.index_;
this.increment_(1);
while (this.index_ < this.length_) {
code = this.getCurrentCharCode_();
if (this.isIdentifierPart_(code)) {
this.increment_(1);
} else {
break;
}
}
var id = this.source_.slice(start, this.index_);
var type;
if (id.length === 1) {
type = ol.expr.TokenType.IDENTIFIER;
} else if (this.isKeyword_(id)) {
type = ol.expr.TokenType.KEYWORD;
} else if (id === 'null') {
type = ol.expr.TokenType.NULL_LITERAL;
} else if (id === 'true' || id === 'false') {
type = ol.expr.TokenType.BOOLEAN_LITERAL;
} else {
type = ol.expr.TokenType.IDENTIFIER;
}
return {
type: type,
value: id,
index: start
};
};
/**
* Scan numeric literal token.
* http://www.ecma-international.org/ecma-262/5.1/#sec-7.8.3
*
* @param {number} code The current character code.
* @return {ol.expr.Token} Numeric literal token.
* @private
*/
ol.expr.Lexer.prototype.scanNumericLiteral_ = function(code) {
goog.asserts.assert(
code === ol.expr.Char.DOT || this.isDecimalDigit_(code),
'Valid start for numeric literal: ' + String.fromCharCode(code));
// start assembling numeric string
var str = '';
var start = this.index_;
if (code !== ol.expr.Char.DOT) {
if (code === ol.expr.Char.DIGIT_0) {
var nextCode = this.getCharCode_(1);
// hex literals start with 0X or 0x
if (nextCode === ol.expr.Char.UPPER_X ||
nextCode === ol.expr.Char.LOWER_X) {
this.increment_(2);
return this.scanHexLiteral_(this.getCurrentCharCode_());
}
// octals start with 0
if (this.isOctalDigit_(nextCode)) {
this.increment_(1);
return this.scanOctalLiteral_(nextCode);
}
// numbers like 09 not allowed
if (this.isDecimalDigit_(nextCode)) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(nextCode),
index: this.index_
});
}
}
// scan all decimal chars
while (this.isDecimalDigit_(code)) {
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
}
}
// scan fractional part
if (code === ol.expr.Char.DOT) {
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
// scan all decimal chars
while (this.isDecimalDigit_(code)) {
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
}
}
// scan exponent
if (code === ol.expr.Char.UPPER_E ||
code === ol.expr.Char.LOWER_E) {
str += 'E';
this.increment_(1);
code = this.getCurrentCharCode_();
if (code === ol.expr.Char.PLUS ||
code === ol.expr.Char.MINUS) {
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
}
if (!this.isDecimalDigit_(code)) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(code),
index: this.index_
});
}
// scan all decimal chars (TODO: unduplicate this)
while (this.isDecimalDigit_(code)) {
str += String.fromCharCode(code);
this.increment_(1);
code = this.getCurrentCharCode_();
}
}
if (this.isIdentifierStart_(code)) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(code),
index: this.index_
});
}
goog.asserts.assert(!isNaN(parseFloat(str)), 'Valid number: ' + str);
return {
type: ol.expr.TokenType.NUMERIC_LITERAL,
value: parseFloat(str),
index: start
};
};
/**
* Scan octal literal as numeric token.
*
* @param {number} code The current character code.
* @return {ol.expr.Token} Numeric literal token.
* @private
*/
ol.expr.Lexer.prototype.scanOctalLiteral_ = function(code) {
goog.asserts.assert(this.isOctalDigit_(code));
var str = '0' + String.fromCharCode(code);
var start = this.index_ - 1;
this.increment_(1);
while (this.index_ < this.length_) {
code = this.getCurrentCharCode_();
if (!this.isOctalDigit_(code)) {
break;
}
str += String.fromCharCode(code);
this.increment_(1);
}
code = this.getCurrentCharCode_();
if (this.isIdentifierStart_(code) ||
this.isDecimalDigit_(code)) {
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(code),
index: this.index_
});
}
goog.asserts.assert(!isNaN(parseInt(str, 8)), 'Valid octal: ' + str);
return {
type: ol.expr.TokenType.NUMERIC_LITERAL,
value: parseInt(str, 8),
index: start
};
};
/**
* Scan punctuator token (a subset of allowed tokens in 7.7).
*
* @param {number} code The current character code.
* @return {ol.expr.Token} Punctuator token.
* @private
*/
ol.expr.Lexer.prototype.scanPunctuator_ = function(code) {
var start = this.index_;
// single char punctuation that also doesn't start longer punctuation
// (we disallow assignment, so no += etc.)
if (code === ol.expr.Char.DOT ||
code === ol.expr.Char.LEFT_PAREN ||
code === ol.expr.Char.RIGHT_PAREN ||
code === ol.expr.Char.COMMA ||
code === ol.expr.Char.PLUS ||
code === ol.expr.Char.MINUS ||
code === ol.expr.Char.STAR ||
code === ol.expr.Char.SLASH ||
code === ol.expr.Char.PERCENT ||
code === ol.expr.Char.TILDE) {
this.increment_(1);
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: String.fromCharCode(code),
index: start
};
}
// check for 2-character punctuation
var nextCode = this.getCharCode_(1);
// assignment or comparison (and we don't allow assignment)
if (nextCode === ol.expr.Char.EQUAL) {
if (code === ol.expr.Char.BANG || code === ol.expr.Char.EQUAL) {
// we're looking at !=, ==, !==, or ===
this.increment_(2);
// check for triple
if (this.getCurrentCharCode_() === ol.expr.Char.EQUAL) {
this.increment_(1);
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: String.fromCharCode(code) + '==',
index: start
};
} else {
// != or ==
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: String.fromCharCode(code) + '=',
index: start
};
}
}
if (code === ol.expr.Char.GREATER ||
code === ol.expr.Char.LESS) {
this.increment_(2);
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: String.fromCharCode(code) + '=',
index: start
};
}
}
// remaining 2-charcter punctuators are || and &&
if (code === nextCode &&
(code === ol.expr.Char.PIPE ||
code === ol.expr.Char.AMPERSAND)) {
this.increment_(2);
var str = String.fromCharCode(code);
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: str + str,
index: start
};
}
// we don't allow 4-character punctuator (>>>=)
// and the allowed 3-character punctuators (!==, ===) are already consumed
// other single character punctuators
if (code === ol.expr.Char.GREATER ||
code === ol.expr.Char.LESS ||
code === ol.expr.Char.BANG ||
code === ol.expr.Char.AMPERSAND ||
code === ol.expr.Char.PIPE) {
this.increment_(1);
return {
type: ol.expr.TokenType.PUNCTUATOR,
value: String.fromCharCode(code),
index: start
};
}
throw new ol.expr.UnexpectedToken({
type: ol.expr.TokenType.UNKNOWN,
value: String.fromCharCode(code),
index: this.index_
});
};
/**
* Scan string literal token.
*
* @param {number} quote The current character code.
* @return {ol.expr.Token} String literal token.
* @private
*/
ol.expr.Lexer.prototype.scanStringLiteral_ = function(quote) {
goog.asserts.assert(quote === ol.expr.Char.SINGLE_QUOTE ||
quote === ol.expr.Char.DOUBLE_QUOTE,
'Strings must start with a quote: ' + String.fromCharCode(quote));
var start = this.index_;
this.increment_(1);
var str = '';
var code;
while (this.index_ < this.length_) {
code = this.getCurrentCharCode_();
this.increment_(1);
if (code === quote) {
quote = 0;
break;
}
// look for escaped quote or backslash
if (code === ol.expr.Char.BACKSLASH) {
str += this.getCurrentChar_();
this.increment_(1);
} else {
str += String.fromCharCode(code);
}
}
if (quote !== 0) {
// unterminated string literal
throw new ol.expr.UnexpectedToken(this.peek());
}
return {
type: ol.expr.TokenType.STRING_LITERAL,
value: str,
index: start
};
};
/**
* After peeking, skip may be called to advance the cursor without re-scanning.
*/
ol.expr.Lexer.prototype.skip = function() {
this.index_ = this.nextIndex_;
};
/**
* Skip all whitespace.
* @return {number} The character code of the first non-whitespace character.
* @private
*/
ol.expr.Lexer.prototype.skipWhitespace_ = function() {
var code = NaN;
while (this.index_ < this.length_) {
code = this.getCurrentCharCode_();
if (this.isWhitespace_(code)) {
this.increment_(1);
} else {
break;
}
}
return code;
};
/**
* Error object for unexpected tokens.
* @param {ol.expr.Token} token The unexpected token.
* @param {string=} opt_message Custom error message.
* @constructor
* @extends {goog.debug.Error}
*/
ol.expr.UnexpectedToken = function(token, opt_message) {
var message = goog.isDef(opt_message) ? opt_message :
'Unexpected token ' + token.value + ' at index ' + token.index;
goog.debug.Error.call(this, message);
/**
* @type {ol.expr.Token}
*/
this.token = token;
};
goog.inherits(ol.expr.UnexpectedToken, goog.debug.Error);
/** @override */
ol.expr.UnexpectedToken.prototype.name = 'UnexpectedToken';

478
src/ol/expr/parser.js Normal file
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@@ -0,0 +1,478 @@
/**
* The logic and naming of methods here are inspired by Esprima (BSD Licensed).
* Esprima (http://esprima.org) includes the following copyright notices:
*
* Copyright (C) 2013 Ariya Hidayat <ariya.hidayat@gmail.com>
* Copyright (C) 2013 Thaddee Tyl <thaddee.tyl@gmail.com>
* Copyright (C) 2012 Ariya Hidayat <ariya.hidayat@gmail.com>
* Copyright (C) 2012 Mathias Bynens <mathias@qiwi.be>
* Copyright (C) 2012 Joost-Wim Boekesteijn <joost-wim@boekesteijn.nl>
* Copyright (C) 2012 Kris Kowal <kris.kowal@cixar.com>
* Copyright (C) 2012 Yusuke Suzuki <utatane.tea@gmail.com>
* Copyright (C) 2012 Arpad Borsos <arpad.borsos@googlemail.com>
* Copyright (C) 2011 Ariya Hidayat <ariya.hidayat@gmail.com>
*/
goog.provide('ol.expr.Parser');
goog.require('goog.asserts');
goog.require('ol.expr.Call');
goog.require('ol.expr.Comparison');
goog.require('ol.expr.ComparisonOp');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Identifier');
goog.require('ol.expr.Lexer');
goog.require('ol.expr.Literal');
goog.require('ol.expr.Logical');
goog.require('ol.expr.LogicalOp');
goog.require('ol.expr.Math');
goog.require('ol.expr.MathOp');
goog.require('ol.expr.Member');
goog.require('ol.expr.Not');
goog.require('ol.expr.Token');
goog.require('ol.expr.TokenType');
goog.require('ol.expr.UnexpectedToken');
/**
* Instances of ol.expr.Parser parse a very limited set of ECMAScript
* expressions (http://www.ecma-international.org/ecma-262/5.1/#sec-11).
*
* - Primary Expression (11.1):
* - Identifier (e.g. `foo`)
* - Literal (e.g. `"some string"` or `42`)
* - Grouped (e.g. `(foo)`)
* - Left-Hand-Side Expression (11.2):
* - Property Accessors
* - Dot notation only
* - Function Calls
* - Identifier with arguments only (e.g. `foo(bar, 42)`)
* - Unary Operators (11.4)
* - Logical Not (e.g. `!foo`)
* - Multiplicitave Operators (11.5)
* - Additive Operators (11.6)
* - Relational Operators (11.8)
* - <, >, <=, and >= only
* - Equality Operators (11.9)
* - Binary Logical Operators (11.11)
*
* @constructor
*/
ol.expr.Parser = function() {
};
/**
* Determine the precedence for the given token.
*
* @param {ol.expr.Token} token A token.
* @return {number} The precedence for the given token. Higher gets more
* precedence.
* @private
*/
ol.expr.Parser.prototype.binaryPrecedence_ = function(token) {
var precedence = 0;
if (token.type !== ol.expr.TokenType.PUNCTUATOR) {
return precedence;
}
switch (token.value) {
case ol.expr.LogicalOp.OR:
precedence = 1;
break;
case ol.expr.LogicalOp.AND:
precedence = 2;
break;
case ol.expr.ComparisonOp.EQ:
case ol.expr.ComparisonOp.NEQ:
case ol.expr.ComparisonOp.STRICT_EQ:
case ol.expr.ComparisonOp.STRICT_NEQ:
precedence = 3;
break;
case ol.expr.ComparisonOp.GT:
case ol.expr.ComparisonOp.LT:
case ol.expr.ComparisonOp.GTE:
case ol.expr.ComparisonOp.LTE:
precedence = 4;
break;
case ol.expr.MathOp.ADD:
case ol.expr.MathOp.SUBTRACT:
precedence = 5;
break;
case ol.expr.MathOp.MULTIPLY:
case ol.expr.MathOp.DIVIDE:
case ol.expr.MathOp.MOD:
precedence = 6;
break;
default:
// punctuator is not a supported binary operator, that's fine
break;
}
return precedence;
};
/**
* Create a binary expression.
*
* @param {string} operator Operator.
* @param {ol.expr.Expression} left Left expression.
* @param {ol.expr.Expression} right Right expression.
* @return {ol.expr.Expression} The expression.
* @private
*/
ol.expr.Parser.prototype.createBinaryExpression_ = function(operator,
left, right) {
var expr;
if (ol.expr.Comparison.isValidOp(operator)) {
expr = new ol.expr.Comparison(
/** @type {ol.expr.ComparisonOp.<string>} */ (operator),
left, right);
} else if (ol.expr.Logical.isValidOp(operator)) {
expr = new ol.expr.Logical(
/** @type {ol.expr.LogicalOp.<string>} */ (operator),
left, right);
} else if (ol.expr.Math.isValidOp(operator)) {
expr = new ol.expr.Math(
/** @type {ol.expr.MathOp.<string>} */ (operator),
left, right);
} else {
throw new Error('Unsupported binary operator: ' + operator);
}
return expr;
};
/**
* Create a call expression.
*
* @param {ol.expr.Expression} callee Expression for function.
* @param {Array.<ol.expr.Expression>} args Arguments array.
* @return {ol.expr.Call} Call expression.
* @private
*/
ol.expr.Parser.prototype.createCallExpression_ = function(callee, args) {
return new ol.expr.Call(callee, args);
};
/**
* Create an identifier expression.
*
* @param {string} name Identifier name.
* @return {ol.expr.Identifier} Identifier expression.
* @private
*/
ol.expr.Parser.prototype.createIdentifier_ = function(name) {
return new ol.expr.Identifier(name);
};
/**
* Create a literal expression.
*
* @param {string|number|boolean|null} value Literal value.
* @return {ol.expr.Literal} The literal expression.
* @private
*/
ol.expr.Parser.prototype.createLiteral_ = function(value) {
return new ol.expr.Literal(value);
};
/**
* Create a member expression.
*
* // TODO: make exp {ol.expr.Member|ol.expr.Identifier}
* @param {ol.expr.Expression} object Expression.
* @param {ol.expr.Identifier} property Member name.
* @return {ol.expr.Member} The member expression.
* @private
*/
ol.expr.Parser.prototype.createMemberExpression_ = function(object,
property) {
return new ol.expr.Member(object, property);
};
/**
* Create a unary expression. The only true unary operator supported here is
* "!". For +/-, we apply the operator to literal expressions and return
* another literal.
*
* @param {ol.expr.Token} op Operator.
* @param {ol.expr.Expression} argument Expression.
* @return {ol.expr.Expression} The unary expression.
* @private
*/
ol.expr.Parser.prototype.createUnaryExpression_ = function(op, argument) {
goog.asserts.assert(op.value === '!' || op.value === '+' || op.value === '-');
var expr;
if (op.value === '!') {
expr = new ol.expr.Not(argument);
} else if (!(argument instanceof ol.expr.Literal)) {
throw new ol.expr.UnexpectedToken(op);
} else {
// we've got +/- literal
if (op.value === '+') {
expr = this.createLiteral_(
+ /** @type {number|string|boolean|null} */ (argument.evaluate()));
} else {
expr = this.createLiteral_(
- /** @type {number|string|boolean|null} */ (argument.evaluate()));
}
}
return expr;
};
/**
* Parse an expression.
*
* @param {string} source Expression source.
* @return {ol.expr.Expression} Expression.
*/
ol.expr.Parser.prototype.parse = function(source) {
var lexer = new ol.expr.Lexer(source);
var expr = this.parseExpression_(lexer);
var token = lexer.peek();
if (token.type !== ol.expr.TokenType.EOF) {
throw new ol.expr.UnexpectedToken(token);
}
return expr;
};
/**
* Parse call arguments
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.2.4
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {Array.<ol.expr.Expression>} Arguments.
* @private
*/
ol.expr.Parser.prototype.parseArguments_ = function(lexer) {
var args = [];
lexer.expect('(');
if (!lexer.match(')')) {
while (true) {
args.push(this.parseBinaryExpression_(lexer));
if (lexer.match(')')) {
break;
}
lexer.expect(',');
}
}
lexer.skip();
return args;
};
/**
* Parse a binary expression. Supported binary expressions:
*
* - Multiplicative Operators (`*`, `/`, `%`)
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.5
* - Additive Operators (`+`, `-`)
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.6
*
* - Relational Operators (`<`, `>`, `<=`, `>=`)
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.8
*
* - Equality Operators (`==`, `!=`, `===`, `!==`)
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.9
*
* - Binary Logical Operators (`&&`, `||`)
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.11
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parseBinaryExpression_ = function(lexer) {
var left = this.parseUnaryExpression_(lexer);
var operator = lexer.peek();
var precedence = this.binaryPrecedence_(operator);
if (precedence === 0) {
// not a supported binary operator
return left;
}
lexer.skip();
var right = this.parseUnaryExpression_(lexer);
var stack = [left, operator, right];
precedence = this.binaryPrecedence_(lexer.peek());
while (precedence > 0) {
// TODO: cache operator precedence in stack
while (stack.length > 2 &&
(precedence <= this.binaryPrecedence_(stack[stack.length - 2]))) {
right = stack.pop();
operator = stack.pop();
left = stack.pop();
stack.push(this.createBinaryExpression_(operator.value, left, right));
}
stack.push(lexer.next());
stack.push(this.parseUnaryExpression_(lexer));
precedence = this.binaryPrecedence_(lexer.peek());
}
var i = stack.length - 1;
var expr = stack[i];
while (i > 1) {
expr = this.createBinaryExpression_(stack[i - 1].value, stack[i - 2], expr);
i -= 2;
}
return expr;
};
/**
* Parse a group expression.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.1.6
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parseGroupExpression_ = function(lexer) {
lexer.expect('(');
var expr = this.parseExpression_(lexer);
lexer.expect(')');
return expr;
};
/**
* Parse left-hand-side expression. Limited to Member Expressions
* and Call Expressions.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.2
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parseLeftHandSideExpression_ = function(lexer) {
var expr = this.parsePrimaryExpression_(lexer);
var token = lexer.peek();
if (token.value === '(') {
// only allow calls on identifiers (e.g. `foo()` not `foo.bar()`)
if (!(expr instanceof ol.expr.Identifier)) {
// TODO: more helpful error messages for restricted syntax
throw new ol.expr.UnexpectedToken(token);
}
var args = this.parseArguments_(lexer);
expr = this.createCallExpression_(expr, args);
} else {
// TODO: throw if not Identifier
while (token.value === '.') {
var property = this.parseNonComputedMember_(lexer);
expr = this.createMemberExpression_(expr, property);
token = lexer.peek();
}
}
return expr;
};
/**
* Parse non-computed member.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.2
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Identifier} Expression.
* @private
*/
ol.expr.Parser.prototype.parseNonComputedMember_ = function(lexer) {
lexer.expect('.');
var token = lexer.next();
if (token.type !== ol.expr.TokenType.IDENTIFIER &&
token.type !== ol.expr.TokenType.KEYWORD &&
token.type !== ol.expr.TokenType.BOOLEAN_LITERAL &&
token.type !== ol.expr.TokenType.NULL_LITERAL) {
throw new ol.expr.UnexpectedToken(token);
}
return this.createIdentifier_(String(token.value));
};
/**
* Parse primary expression.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.1
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parsePrimaryExpression_ = function(lexer) {
var token = lexer.peek();
if (token.value === '(') {
return this.parseGroupExpression_(lexer);
}
lexer.skip();
var expr;
var type = token.type;
if (type === ol.expr.TokenType.IDENTIFIER) {
expr = this.createIdentifier_(/** @type {string} */ (token.value));
} else if (type === ol.expr.TokenType.STRING_LITERAL ||
type === ol.expr.TokenType.NUMERIC_LITERAL) {
// numeric and string literals are already the correct type
expr = this.createLiteral_(token.value);
} else if (type === ol.expr.TokenType.BOOLEAN_LITERAL) {
// because booleans are valid member properties, tokens are still string
expr = this.createLiteral_(token.value === 'true');
} else if (type === ol.expr.TokenType.NULL_LITERAL) {
expr = this.createLiteral_(null);
} else {
throw new ol.expr.UnexpectedToken(token);
}
return expr;
};
/**
* Parse expression with a unary operator. Limited to logical not operator.
* http://www.ecma-international.org/ecma-262/5.1/#sec-11.4
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parseUnaryExpression_ = function(lexer) {
var expr;
var operator = lexer.peek();
if (operator.type !== ol.expr.TokenType.PUNCTUATOR) {
expr = this.parseLeftHandSideExpression_(lexer);
} else if (operator.value === '!' || operator.value === '-' ||
operator.value === '+') {
lexer.skip();
expr = this.parseUnaryExpression_(lexer);
expr = this.createUnaryExpression_(operator, expr);
} else {
expr = this.parseLeftHandSideExpression_(lexer);
}
return expr;
};
/**
* Parse an expression.
*
* @param {ol.expr.Lexer} lexer Lexer.
* @return {ol.expr.Expression} Expression.
* @private
*/
ol.expr.Parser.prototype.parseExpression_ = function(lexer) {
return this.parseBinaryExpression_(lexer);
};

1
src/ol/expression.exports
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@@ -1 +0,0 @@
@exportSymbol ol.Expression

80
src/ol/expression.js
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@@ -1,80 +0,0 @@
goog.provide('ol.Expression');
goog.provide('ol.ExpressionLiteral');
/**
* Create a new expression. Expressions are used for instance to bind
* symbolizer properties to feature attributes.
*
* Example:
*
* // take the color from the color attribute
* color: new ol.Expression('color');
* // take the strokeWidth from the width attribute and multiply by 2.
* strokeWidth: new ol.Expression('width*2');
*
* @constructor
* @param {string} source Expression to be evaluated.
*/
ol.Expression = function(source) {
/**
* @type {string}
* @private
*/
this.source_ = source;
};
/**
* Evaluate the expression and return the result.
*
* @param {Object=} opt_thisArg Object to use as this when evaluating the
* expression. If not provided, the global object will be used.
* @param {Object=} opt_scope Evaluation scope. All properties of this object
* will be available as variables when evaluating the expression. If not
* provided, the global object will be used.
* @return {*} Result of the expression.
*/
ol.Expression.prototype.evaluate = function(opt_thisArg, opt_scope) {
var thisArg = goog.isDef(opt_thisArg) ? opt_thisArg : goog.global,
scope = goog.isDef(opt_scope) ? opt_scope : goog.global,
names = [],
values = [];
for (var name in scope) {
names.push(name);
values.push(scope[name]);
}
var evaluator = new Function(names.join(','), 'return ' + this.source_);
return evaluator.apply(thisArg, values);
};
/**
* @constructor
* @extends {ol.Expression}
* @param {*} value Literal value.
*/
ol.ExpressionLiteral = function(value) {
/**
* @type {*}
* @private
*/
this.value_ = value;
};
goog.inherits(ol.ExpressionLiteral, ol.Expression);
/**
* @inheritDoc
*/
ol.ExpressionLiteral.prototype.evaluate = function(opt_thisArg, opt_scope) {
return this.value_;
};

7
src/ol/filter.exports
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@@ -1,7 +0,0 @@
@exportSymbol ol.filter.Filter
@exportSymbol ol.filter.Geometry
@exportSymbol ol.filter.Logical
@exportSymbol ol.filter.LogicalOperator
@exportProperty ol.filter.LogicalOperator.AND
@exportProperty ol.filter.LogicalOperator.OR

3
src/ol/filter.jsdoc
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@@ -1,3 +0,0 @@
/**
* @namespace ol.filter
*/

39
src/ol/filter/extentfilter.js
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@@ -1,39 +0,0 @@
goog.provide('ol.filter.Extent');
goog.require('ol.extent');
goog.require('ol.filter.Filter');
/**
* @constructor
* @extends {ol.filter.Filter}
* @param {ol.Extent} extent The extent.
*/
ol.filter.Extent = function(extent) {
goog.base(this);
/**
* @type {ol.Extent}
* @private
*/
this.extent_ = extent;
};
goog.inherits(ol.filter.Extent, ol.filter.Filter);
/**
* @return {ol.Extent} The filter extent.
*/
ol.filter.Extent.prototype.getExtent = function() {
return this.extent_;
};
/**
* @inheritDoc
*/
ol.filter.Extent.prototype.applies = function(feature) {
return ol.extent.intersects(feature.getGeometry().getBounds(), this.extent_);
};

36
src/ol/filter/filter.js
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@@ -1,36 +0,0 @@
goog.provide('ol.filter.Filter');
goog.require('ol.Feature');
/**
* Create a new filter which can be used to filter features based on a
* function.
*
* Example:
*
* new ol.style.Rule({
* filter: new ol.filter.Filter(function(feature) {
* return feature.get('where') == 'outer';
* }),
* symbolizers: [
* ...
*
* @constructor
* @param {function(this:ol.filter.Filter, ol.Feature)=} opt_filterFunction
* Filter function. Should return true if the passed feature passes the
* filter, false otherwise.
*/
ol.filter.Filter = function(opt_filterFunction) {
if (goog.isDef(opt_filterFunction)) {
this.applies = opt_filterFunction;
}
};
/**
* @param {ol.Feature} feature Feature to evaluate the filter against.
* @return {boolean} The provided feature passes this filter.
*/
ol.filter.Filter.prototype.applies = goog.abstractMethod;

42
src/ol/filter/geometryfilter.js
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@@ -1,42 +0,0 @@
goog.provide('ol.filter.Geometry');
goog.provide('ol.filter.GeometryType');
goog.require('ol.filter.Filter');
goog.require('ol.geom.GeometryType');
/**
* Filter features by geometry type.
* @constructor
* @extends {ol.filter.Filter}
* @param {ol.geom.GeometryType} type The geometry type.
*/
ol.filter.Geometry = function(type) {
goog.base(this);
/**
* @type {ol.geom.GeometryType}
* @private
*/
this.type_ = type;
};
goog.inherits(ol.filter.Geometry, ol.filter.Filter);
/**
* @inheritDoc
*/
ol.filter.Geometry.prototype.applies = function(feature) {
var geometry = feature.getGeometry();
return goog.isNull(geometry) ? false : geometry.getType() === this.type_;
};
/**
* @return {ol.geom.GeometryType} The geometry type.
*/
ol.filter.Geometry.prototype.getType = function() {
return this.type_;
};

128
src/ol/filter/logicalfilter.js
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@@ -1,128 +0,0 @@
goog.provide('ol.filter.Logical');
goog.provide('ol.filter.LogicalOperator');
goog.provide('ol.filter.and');
goog.provide('ol.filter.not');
goog.provide('ol.filter.or');
goog.require('goog.asserts');
goog.require('ol.filter.Filter');
/**
* A filter to group (a) subfilter(s) by a logical operator (AND/OR/NOT).
*
* Example:
*
* var f1 = new ol.filter.Filter(myFunc1);
* var f2 = new ol.filter.Filter(myFunc2);
* // match one of the two filters above
* var logical = new ol.filter.Logical([f1, f2],
* ol.filter.LogicalOperator.OR);
*
* @constructor
* @extends {ol.filter.Filter}
* @param {Array.<ol.filter.Filter>} filters Filters to combine.
* @param {ol.filter.LogicalOperator} operator Operator.
*/
ol.filter.Logical = function(filters, operator) {
goog.base(this);
/**
* @type {Array.<ol.filter.Filter>}
* @private
*/
this.filters_ = filters;
goog.asserts.assert(filters.length > 0, 'Must supply at least one filter');
/**
* @type {ol.filter.LogicalOperator}
*/
this.operator = operator;
};
goog.inherits(ol.filter.Logical, ol.filter.Filter);
/**
* @inheritDoc
*/
ol.filter.Logical.prototype.applies = function(feature) {
var filters = this.filters_,
i = 0, ii = filters.length,
result;
switch (this.operator) {
case ol.filter.LogicalOperator.AND:
result = true;
while (result && i < ii) {
result = result && filters[i].applies(feature);
++i;
}
break;
case ol.filter.LogicalOperator.OR:
result = false;
while (!result && i < ii) {
result = result || filters[i].applies(feature);
++i;
}
break;
case ol.filter.LogicalOperator.NOT:
result = !filters[i].applies(feature);
break;
default:
goog.asserts.assert(false, 'Unsupported operation: ' + this.operator);
}
return !!result;
};
/**
* @return {Array.<ol.filter.Filter>} The filter's filters.
*/
ol.filter.Logical.prototype.getFilters = function() {
return this.filters_;
};
/**
* @enum {string}
*/
ol.filter.LogicalOperator = {
AND: '&&',
OR: '||',
NOT: '!'
};
/**
* Create a filter that evaluates to true if all of the provided filters
* evaluate to true.
* @param {...ol.filter.Filter} var_args Filters.
* @return {ol.filter.Logical} A logical AND filter.
*/
ol.filter.and = function(var_args) {
var filters = Array.prototype.slice.call(arguments);
return new ol.filter.Logical(filters, ol.filter.LogicalOperator.AND);
};
/**
* Create a new filter that is the logical compliment of another.
* @param {ol.filter.Filter} filter The filter to negate.
* @return {ol.filter.Logical} A logical NOT filter.
*/
ol.filter.not = function(filter) {
return new ol.filter.Logical([filter], ol.filter.LogicalOperator.NOT);
};
/**
* Create a filter that evaluates to true if any of the provided filters
* evaluate to true.
* @param {...ol.filter.Filter} var_args Filters.
* @return {ol.filter.Logical} A logical OR filter.
*/
ol.filter.or = function(var_args) {
var filters = Array.prototype.slice.call(arguments);
return new ol.filter.Logical(filters, ol.filter.LogicalOperator.OR);
};

135
src/ol/layer/vectorlayer.js
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@@ -5,6 +5,11 @@ goog.require('goog.asserts');
goog.require('goog.events.EventType');
goog.require('goog.object');
goog.require('ol.Feature');
goog.require('ol.expr');
goog.require('ol.expr.Literal');
goog.require('ol.expr.Logical');
goog.require('ol.expr.LogicalOp');
goog.require('ol.expr.functions');
goog.require('ol.geom.GeometryType');
goog.require('ol.geom.SharedVertices');
goog.require('ol.layer.Layer');
@@ -79,35 +84,65 @@ ol.layer.FeatureCache.prototype.add = function(feature) {
/**
* @param {ol.filter.Filter=} opt_filter Optional filter.
* @param {ol.expr.Expression=} opt_expr Expression for filtering.
* @return {Object.<string, ol.Feature>} Object of features, keyed by id.
*/
ol.layer.FeatureCache.prototype.getFeaturesObject = function(opt_filter) {
var i, features;
if (!goog.isDef(opt_filter)) {
ol.layer.FeatureCache.prototype.getFeaturesObject = function(opt_expr) {
var features;
if (!goog.isDef(opt_expr)) {
features = this.idLookup_;
} else {
if (opt_filter instanceof ol.filter.Geometry) {
features = this.geometryTypeIndex_[opt_filter.getType()];
} else if (opt_filter instanceof ol.filter.Extent) {
features = this.rTree_.searchReturningObject(opt_filter.getExtent());
} else if (opt_filter instanceof ol.filter.Logical &&
opt_filter.operator === ol.filter.LogicalOperator.AND) {
var filters = opt_filter.getFilters();
if (filters.length === 2) {
var filter, geometryFilter, extentFilter;
for (i = 0; i <= 1; ++i) {
filter = filters[i];
if (filter instanceof ol.filter.Geometry) {
geometryFilter = filter;
} else if (filter instanceof ol.filter.Extent) {
extentFilter = filter;
// check for geometryType or extent expression
var name = ol.expr.isLibCall(opt_expr);
if (name === ol.expr.functions.GEOMETRY_TYPE) {
var args = /** @type {ol.expr.Call} */ (opt_expr).getArgs();
goog.asserts.assert(args.length === 1);
goog.asserts.assert(args[0] instanceof ol.expr.Literal);
var type = /** @type {ol.expr.Literal } */ (args[0]).evaluate();
goog.asserts.assertString(type);
features = this.geometryTypeIndex_[type];
} else if (name === ol.expr.functions.EXTENT) {
var args = /** @type {ol.expr.Call} */ (opt_expr).getArgs();
goog.asserts.assert(args.length === 4);
var extent = [];
for (var i = 0; i < 4; ++i) {
goog.asserts.assert(args[i] instanceof ol.expr.Literal);
extent[i] = /** @type {ol.expr.Literal} */ (args[i]).evaluate();
goog.asserts.assertNumber(extent[i]);
}
features = this.rTree_.searchReturningObject(extent);
} else {
// not a call expression, check logical
if (opt_expr instanceof ol.expr.Logical) {
var op = /** @type {ol.expr.Logical} */ (opt_expr).getOperator();
if (op === ol.expr.LogicalOp.AND) {
var expressions = [opt_expr.getLeft(), opt_expr.getRight()];
var expr, args, type, extent;
for (var i = 0; i <= 1; ++i) {
expr = expressions[i];
name = ol.expr.isLibCall(expr);
if (name === ol.expr.functions.GEOMETRY_TYPE) {
args = /** @type {ol.expr.Call} */ (expr).getArgs();
goog.asserts.assert(args.length === 1);
goog.asserts.assert(args[0] instanceof ol.expr.Literal);
type = /** @type {ol.expr.Literal } */ (args[0]).evaluate();
goog.asserts.assertString(type);
} else if (name === ol.expr.functions.EXTENT) {
args = /** @type {ol.expr.Call} */ (expr).getArgs();
goog.asserts.assert(args.length === 4);
extent = [];
for (var j = 0; j < 4; ++j) {
goog.asserts.assert(args[j] instanceof ol.expr.Literal);
extent[j] =
/** @type {ol.expr.Literal} */ (args[j]).evaluate();
goog.asserts.assertNumber(extent[j]);
}
}
if (extentFilter && geometryFilter) {
var type = geometryFilter.getType();
features = goog.object.isEmpty(this.geometryTypeIndex_[type]) ? {} :
this.rTree_.searchReturningObject(extentFilter.getExtent(), type);
}
if (type && extent) {
features = this.getFeaturesObjectForExtent(extent,
/** @type {ol.geom.GeometryType} */ (type));
}
}
}
}
@@ -118,7 +153,7 @@ ol.layer.FeatureCache.prototype.getFeaturesObject = function(opt_filter) {
features = {};
for (i in candidates) {
feature = candidates[i];
if (opt_filter.applies(feature) === true) {
if (ol.expr.evaluateFeature(opt_expr, feature)) {
features[i] = feature;
}
}
@@ -129,12 +164,22 @@ ol.layer.FeatureCache.prototype.getFeaturesObject = function(opt_filter) {
/**
* @param {ol.filter.Geometry} filter Geometry type filter.
* @return {Array.<ol.Feature>} Array of features.
* @private
* Get all features whose bounding box intersects the provided extent.
*
* @param {ol.Extent} extent Bounding extent.
* @param {ol.geom.GeometryType=} opt_type Optional geometry type.
* @return {Object.<string, ol.Feature>} Features.
*/
ol.layer.FeatureCache.prototype.getFeaturesByGeometryType_ = function(filter) {
return goog.object.getValues(this.geometryTypeIndex_[filter.getType()]);
ol.layer.FeatureCache.prototype.getFeaturesObjectForExtent = function(extent,
opt_type) {
var features;
if (goog.isDef(opt_type) &&
goog.object.isEmpty(this.geometryTypeIndex_[opt_type])) {
features = {};
} else {
features = this.rTree_.searchReturningObject(extent, opt_type);
}
return features;
};
@@ -234,21 +279,34 @@ ol.layer.Vector.prototype.getVectorSource = function() {
/**
* @param {ol.filter.Filter=} opt_filter Optional filter.
* @param {ol.expr.Expression=} opt_expr Expression for filtering.
* @return {Array.<ol.Feature>} Array of features.
*/
ol.layer.Vector.prototype.getFeatures = function(opt_filter) {
ol.layer.Vector.prototype.getFeatures = function(opt_expr) {
return goog.object.getValues(
this.featureCache_.getFeaturesObject(opt_filter));
this.featureCache_.getFeaturesObject(opt_expr));
};
/**
* @param {ol.filter.Filter=} opt_filter Optional filter.
* @param {ol.expr.Expression=} opt_expr Expression for filtering.
* @return {Object.<string, ol.Feature>} Features.
*/
ol.layer.Vector.prototype.getFeaturesObject = function(opt_filter) {
return this.featureCache_.getFeaturesObject(opt_filter);
ol.layer.Vector.prototype.getFeaturesObject = function(opt_expr) {
return this.featureCache_.getFeaturesObject(opt_expr);
};
/**
* Get all features whose bounding box intersects the provided extent.
*
* @param {ol.Extent} extent Bounding extent.
* @param {ol.geom.GeometryType=} opt_type Optional geometry type.
* @return {Object.<string, ol.Feature>} Features.
*/
ol.layer.Vector.prototype.getFeaturesObjectForExtent = function(extent,
opt_type) {
return this.featureCache_.getFeaturesObjectForExtent(extent, opt_type);
};
@@ -415,10 +473,3 @@ ol.layer.Vector.uidTransformFeatureInfo = function(features) {
function(feature) { return goog.getUid(feature); });
return featureIds.join(', ');
};
goog.require('ol.filter.Extent');
goog.require('ol.filter.Geometry');
goog.require('ol.filter.Logical');
goog.require('ol.filter.LogicalOperator');
goog.require('ol.geom.GeometryType');

44
src/ol/renderer/canvas/canvasvectorlayerrenderer.js
View File

@@ -12,10 +12,6 @@ goog.require('ol.TileCoord');
goog.require('ol.TileRange');
goog.require('ol.ViewHint');
goog.require('ol.extent');
goog.require('ol.filter.Extent');
goog.require('ol.filter.Geometry');
goog.require('ol.filter.Logical');
goog.require('ol.filter.LogicalOperator');
goog.require('ol.geom.GeometryType');
goog.require('ol.layer.Vector');
goog.require('ol.renderer.canvas.Layer');
@@ -101,18 +97,18 @@ ol.renderer.canvas.VectorLayer = function(mapRenderer, layer) {
this.tileArchetype_ = null;
/**
* Geometry filters in rendering order.
* Geometry types in rendering order.
* TODO: these will go away shortly (in favor of one call per symbolizer type)
* @private
* @type {Array.<ol.filter.Geometry>}
* @type {Array.<ol.geom.GeometryType>}
*/
this.geometryFilters_ = [
new ol.filter.Geometry(ol.geom.GeometryType.POINT),
new ol.filter.Geometry(ol.geom.GeometryType.MULTIPOINT),
new ol.filter.Geometry(ol.geom.GeometryType.LINESTRING),
new ol.filter.Geometry(ol.geom.GeometryType.MULTILINESTRING),
new ol.filter.Geometry(ol.geom.GeometryType.POLYGON),
new ol.filter.Geometry(ol.geom.GeometryType.MULTIPOLYGON)
this.geometryTypes_ = [
ol.geom.GeometryType.POINT,
ol.geom.GeometryType.MULTIPOINT,
ol.geom.GeometryType.LINESTRING,
ol.geom.GeometryType.MULTILINESTRING,
ol.geom.GeometryType.POLYGON,
ol.geom.GeometryType.MULTIPOLYGON
];
/**
@@ -251,13 +247,12 @@ ol.renderer.canvas.VectorLayer.prototype.getFeaturesForPixel =
var locationMin = [location[0] - halfMaxWidth, location[1] - halfMaxHeight];
var locationMax = [location[0] + halfMaxWidth, location[1] + halfMaxHeight];
var locationBbox = ol.extent.boundingExtent([locationMin, locationMax]);
var filter = new ol.filter.Extent(locationBbox);
var candidates = layer.getFeatures(filter);
var candidates = layer.getFeaturesObjectForExtent(locationBbox);
var candidate, geom, type, symbolBounds, symbolSize, halfWidth, halfHeight,
coordinates, j;
for (var i = 0, ii = candidates.length; i < ii; ++i) {
candidate = candidates[i];
for (var id in candidates) {
candidate = candidates[id];
geom = candidate.getGeometry();
type = geom.getType();
if (type === ol.geom.GeometryType.POINT ||
@@ -445,11 +440,11 @@ ol.renderer.canvas.VectorLayer.prototype.renderFrame =
var tileGutter = 15 * tileResolution;
var tile, tileCoord, key, x, y;
// render features by geometry type
var filters = this.geometryFilters_,
numFilters = filters.length,
var types = this.geometryTypes_,
numTypes = types.length,
deferred = false,
dirty = false,
i, geomFilter, tileExtent, extentFilter, type,
i, type, tileExtent,
groups, group, j, numGroups, featuresObject, tileHasFeatures;
for (x = tileRange.minX; x <= tileRange.maxX; ++x) {
for (y = tileRange.minY; y <= tileRange.maxY; ++y) {
@@ -463,16 +458,13 @@ ol.renderer.canvas.VectorLayer.prototype.renderFrame =
tileExtent[1] += tileGutter;
tileExtent[2] -= tileGutter;
tileExtent[3] += tileGutter;
extentFilter = new ol.filter.Extent(tileExtent);
tileHasFeatures = false;
for (i = 0; i < numFilters; ++i) {
geomFilter = filters[i];
type = geomFilter.getType();
for (i = 0; i < numTypes; ++i) {
type = types[i];
if (!goog.isDef(featuresToRender[type])) {
featuresToRender[type] = {};
}
featuresObject = layer.getFeaturesObject(new ol.filter.Logical(
[geomFilter, extentFilter], ol.filter.LogicalOperator.AND));
featuresObject = layer.getFeaturesObjectForExtent(tileExtent, type);
tileHasFeatures = tileHasFeatures ||
!goog.object.isEmpty(featuresObject);
goog.object.extend(featuresToRender[type], featuresObject);

16
src/ol/renderer/canvas/canvasvectorrenderer.js
View File

@@ -272,22 +272,12 @@ ol.renderer.canvas.VectorRenderer.prototype.renderPointFeatures_ =
ol.renderer.canvas.VectorRenderer.prototype.renderText_ =
function(features, text, texts) {
var context = this.context_,
fontArray = [],
color = text.color,
vecs, vec;
if (color) {
context.fillStyle = color;
}
if (goog.isDef(text.fontSize)) {
fontArray.push(text.fontSize + 'px');
}
if (goog.isDef(text.fontFamily)) {
fontArray.push(text.fontFamily);
}
if (fontArray.length) {
context.font = fontArray.join(' ');
if (context.fillStyle !== text.color) {
context.fillStyle = text.color;
}
context.font = text.fontSize + 'px ' + text.fontFamily;
context.globalAlpha = text.opacity;
// TODO: make alignments configurable

70
src/ol/style/icon.js
View File

@@ -3,8 +3,9 @@ goog.provide('ol.style.IconLiteral');
goog.provide('ol.style.IconType');
goog.require('goog.asserts');
goog.require('ol.Expression');
goog.require('ol.ExpressionLiteral');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Literal');
goog.require('ol.style.Point');
goog.require('ol.style.PointLiteral');
@@ -69,47 +70,47 @@ ol.style.Icon = function(options) {
goog.asserts.assert(options.url, 'url must be set');
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.url_ = (options.url instanceof ol.Expression) ?
options.url : new ol.ExpressionLiteral(options.url);
this.url_ = (options.url instanceof ol.expr.Expression) ?
options.url : new ol.expr.Literal(options.url);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.width_ = !goog.isDef(options.width) ?
null :
(options.width instanceof ol.Expression) ?
options.width : new ol.ExpressionLiteral(options.width);
(options.width instanceof ol.expr.Expression) ?
options.width : new ol.expr.Literal(options.width);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.height_ = !goog.isDef(options.height) ?
null :
(options.height instanceof ol.Expression) ?
options.height : new ol.ExpressionLiteral(options.height);
(options.height instanceof ol.expr.Expression) ?
options.height : new ol.expr.Literal(options.height);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.opacity_ = !goog.isDef(options.opacity) ?
new ol.ExpressionLiteral(ol.style.IconDefaults.opacity) :
(options.opacity instanceof ol.Expression) ?
options.opacity : new ol.ExpressionLiteral(options.opacity);
new ol.expr.Literal(ol.style.IconDefaults.opacity) :
(options.opacity instanceof ol.expr.Expression) ?
options.opacity : new ol.expr.Literal(options.opacity);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.rotation_ = !goog.isDef(options.rotation) ?
new ol.ExpressionLiteral(ol.style.IconDefaults.rotation) :
(options.rotation instanceof ol.Expression) ?
options.rotation : new ol.ExpressionLiteral(options.rotation);
new ol.expr.Literal(ol.style.IconDefaults.rotation) :
(options.rotation instanceof ol.expr.Expression) ?
options.rotation : new ol.expr.Literal(options.rotation);
};
@@ -118,27 +119,28 @@ ol.style.Icon = function(options) {
* @inheritDoc
* @return {ol.style.IconLiteral} Literal shape symbolizer.
*/
ol.style.Icon.prototype.createLiteral = function(feature) {
var attrs = feature && feature.getAttributes();
ol.style.Icon.prototype.createLiteral = function(opt_feature) {
var url = /** @type {string} */ (this.url_.evaluate(feature, attrs));
goog.asserts.assert(goog.isString(url) && url != '#', 'url must be a string');
var url = ol.expr.evaluateFeature(this.url_, opt_feature);
goog.asserts.assertString(url, 'url must be a string');
goog.asserts.assert(url != '#', 'url must not be "#"');
var width = /** @type {number|undefined} */ (goog.isNull(this.width_) ?
undefined : this.width_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(width) || goog.isNumber(width),
'width must be undefined or a number');
var width;
if (!goog.isNull(this.width_)) {
width = ol.expr.evaluateFeature(this.width_, opt_feature);
goog.asserts.assertNumber(width, 'width must be a number');
}
var height = /** @type {number|undefined} */ (goog.isNull(this.height_) ?
undefined : this.height_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(height) || goog.isNumber(height),
'height must be undefined or a number');
var height;
if (!goog.isNull(this.height_)) {
height = ol.expr.evaluateFeature(this.height_, opt_feature);
goog.asserts.assertNumber(height, 'height must be a number');
}
var opacity = /** {@type {number} */ (this.opacity_.evaluate(feature, attrs));
var opacity = ol.expr.evaluateFeature(this.opacity_, opt_feature);
goog.asserts.assertNumber(opacity, 'opacity must be a number');
var rotation =
/** {@type {number} */ (this.rotation_.evaluate(feature, attrs));
var rotation = ol.expr.evaluateFeature(this.rotation_, opt_feature);
goog.asserts.assertNumber(rotation, 'rotation must be a number');
return new ol.style.IconLiteral({

42
src/ol/style/line.js
View File

@@ -2,8 +2,9 @@ goog.provide('ol.style.Line');
goog.provide('ol.style.LineLiteral');
goog.require('goog.asserts');
goog.require('ol.Expression');
goog.require('ol.ExpressionLiteral');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Literal');
goog.require('ol.style.Symbolizer');
goog.require('ol.style.SymbolizerLiteral');
@@ -63,31 +64,31 @@ ol.style.Line = function(options) {
goog.base(this);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeColor_ = !goog.isDef(options.strokeColor) ?
new ol.ExpressionLiteral(ol.style.LineDefaults.strokeColor) :
(options.strokeColor instanceof ol.Expression) ?
options.strokeColor : new ol.ExpressionLiteral(options.strokeColor);
new ol.expr.Literal(ol.style.LineDefaults.strokeColor) :
(options.strokeColor instanceof ol.expr.Expression) ?
options.strokeColor : new ol.expr.Literal(options.strokeColor);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeWidth_ = !goog.isDef(options.strokeWidth) ?
new ol.ExpressionLiteral(ol.style.LineDefaults.strokeWidth) :
(options.strokeWidth instanceof ol.Expression) ?
options.strokeWidth : new ol.ExpressionLiteral(options.strokeWidth);
new ol.expr.Literal(ol.style.LineDefaults.strokeWidth) :
(options.strokeWidth instanceof ol.expr.Expression) ?
options.strokeWidth : new ol.expr.Literal(options.strokeWidth);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.opacity_ = !goog.isDef(options.opacity) ?
new ol.ExpressionLiteral(ol.style.LineDefaults.opacity) :
(options.opacity instanceof ol.Expression) ?
options.opacity : new ol.ExpressionLiteral(options.opacity);
new ol.expr.Literal(ol.style.LineDefaults.opacity) :
(options.opacity instanceof ol.expr.Expression) ?
options.opacity : new ol.expr.Literal(options.opacity);
};
goog.inherits(ol.style.Line, ol.style.Symbolizer);
@@ -98,19 +99,16 @@ goog.inherits(ol.style.Line, ol.style.Symbolizer);
* @return {ol.style.LineLiteral} Literal line symbolizer.
*/
ol.style.Line.prototype.createLiteral = function(opt_feature) {
var attrs,
feature = opt_feature;
if (goog.isDef(feature)) {
attrs = feature.getAttributes();
}
var strokeColor = this.strokeColor_.evaluate(feature, attrs);
var strokeColor = ol.expr.evaluateFeature(
this.strokeColor_, opt_feature);
goog.asserts.assertString(strokeColor, 'strokeColor must be a string');
var strokeWidth = this.strokeWidth_.evaluate(feature, attrs);
var strokeWidth = ol.expr.evaluateFeature(
this.strokeWidth_, opt_feature);
goog.asserts.assertNumber(strokeWidth, 'strokeWidth must be a number');
var opacity = this.opacity_.evaluate(feature, attrs);
var opacity = ol.expr.evaluateFeature(this.opacity_, opt_feature);
goog.asserts.assertNumber(opacity, 'opacity must be a number');
return new ol.style.LineLiteral({

83
src/ol/style/polygon.js
View File

@@ -2,8 +2,9 @@ goog.provide('ol.style.Polygon');
goog.provide('ol.style.PolygonLiteral');
goog.require('goog.asserts');
goog.require('ol.Expression');
goog.require('ol.ExpressionLiteral');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Literal');
goog.require('ol.style.Symbolizer');
goog.require('ol.style.SymbolizerLiteral');
@@ -80,13 +81,13 @@ ol.style.Polygon = function(options) {
goog.base(this);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.fillColor_ = !goog.isDefAndNotNull(options.fillColor) ?
null :
(options.fillColor instanceof ol.Expression) ?
options.fillColor : new ol.ExpressionLiteral(options.fillColor);
(options.fillColor instanceof ol.expr.Expression) ?
options.fillColor : new ol.expr.Literal(options.fillColor);
// stroke handling - if any stroke property is supplied, use defaults
var strokeColor = null,
@@ -95,25 +96,33 @@ ol.style.Polygon = function(options) {
if (goog.isDefAndNotNull(options.strokeColor) ||
goog.isDefAndNotNull(options.strokeWidth)) {
strokeColor = !goog.isDefAndNotNull(options.strokeColor) ?
new ol.ExpressionLiteral(ol.style.PolygonDefaults.strokeColor) :
(options.strokeColor instanceof ol.Expression) ?
options.strokeColor : new ol.ExpressionLiteral(options.strokeColor);
if (goog.isDefAndNotNull(options.strokeColor)) {
strokeColor = (options.strokeColor instanceof ol.expr.Expression) ?
options.strokeColor :
new ol.expr.Literal(options.strokeColor);
} else {
strokeColor = new ol.expr.Literal(
/** @type {string} */ (ol.style.PolygonDefaults.strokeColor));
}
strokeWidth = !goog.isDef(options.strokeWidth) ?
new ol.ExpressionLiteral(ol.style.PolygonDefaults.strokeWidth) :
(options.strokeWidth instanceof ol.Expression) ?
options.strokeWidth : new ol.ExpressionLiteral(options.strokeWidth);
if (goog.isDefAndNotNull(options.strokeWidth)) {
strokeWidth = (options.strokeWidth instanceof ol.expr.Expression) ?
options.strokeWidth :
new ol.expr.Literal(options.strokeWidth);
} else {
strokeWidth = new ol.expr.Literal(
/** @type {number} */ (ol.style.PolygonDefaults.strokeWidth));
}
}
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeColor_ = strokeColor;
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeWidth_ = strokeWidth;
@@ -124,13 +133,13 @@ ol.style.Polygon = function(options) {
'Stroke or fill properties must be provided');
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.opacity_ = !goog.isDef(options.opacity) ?
new ol.ExpressionLiteral(ol.style.PolygonDefaults.opacity) :
(options.opacity instanceof ol.Expression) ?
options.opacity : new ol.ExpressionLiteral(options.opacity);
new ol.expr.Literal(ol.style.PolygonDefaults.opacity) :
(options.opacity instanceof ol.expr.Expression) ?
options.opacity : new ol.expr.Literal(options.opacity);
};
goog.inherits(ol.style.Polygon, ol.style.Symbolizer);
@@ -141,33 +150,31 @@ goog.inherits(ol.style.Polygon, ol.style.Symbolizer);
* @return {ol.style.PolygonLiteral} Literal shape symbolizer.
*/
ol.style.Polygon.prototype.createLiteral = function(opt_feature) {
var attrs,
feature = opt_feature;
if (goog.isDef(feature)) {
attrs = feature.getAttributes();
var fillColor;
if (!goog.isNull(this.fillColor_)) {
fillColor = ol.expr.evaluateFeature(this.fillColor_, opt_feature);
goog.asserts.assertString(fillColor, 'fillColor must be a string');
}
var fillColor = goog.isNull(this.fillColor_) ?
undefined :
/** @type {string} */ (this.fillColor_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(fillColor) || goog.isString(fillColor));
var strokeColor;
if (!goog.isNull(this.strokeColor_)) {
strokeColor = ol.expr.evaluateFeature(this.strokeColor_, opt_feature);
goog.asserts.assertString(strokeColor, 'strokeColor must be a string');
}
var strokeColor = goog.isNull(this.strokeColor_) ?
undefined :
/** @type {string} */ (this.strokeColor_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(strokeColor) || goog.isString(strokeColor));
var strokeWidth = goog.isNull(this.strokeWidth_) ?
undefined :
/** @type {number} */ (this.strokeWidth_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(strokeWidth) || goog.isNumber(strokeWidth));
var strokeWidth;
if (!goog.isNull(this.strokeWidth_)) {
strokeWidth = ol.expr.evaluateFeature(this.strokeWidth_, opt_feature);
goog.asserts.assertNumber(strokeWidth, 'strokeWidth must be a number');
}
goog.asserts.assert(
goog.isDef(fillColor) ||
(goog.isDef(strokeColor) && goog.isDef(strokeWidth)),
'either fill style or strokeColor and strokeWidth must be defined');
'either fillColor or strokeColor and strokeWidth must be defined');
var opacity = this.opacity_.evaluate(feature, attrs);
var opacity = ol.expr.evaluateFeature(this.opacity_, opt_feature);
goog.asserts.assertNumber(opacity, 'opacity must be a number');
return new ol.style.PolygonLiteral({

23
src/ol/style/rule.js
View File

@@ -1,7 +1,10 @@
goog.provide('ol.style.Rule');
goog.require('goog.asserts');
goog.require('ol.Feature');
goog.require('ol.filter.Filter');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.style.Symbolizer');
@@ -12,11 +15,22 @@ goog.require('ol.style.Symbolizer');
*/
ol.style.Rule = function(options) {
var filter = null;
if (goog.isDef(options.filter)) {
if (goog.isString(options.filter)) {
filter = ol.expr.parse(options.filter);
} else {
goog.asserts.assert(options.filter instanceof ol.expr.Expression);
filter = options.filter;
}
}
/**
* @type {ol.filter.Filter}
* @type {ol.expr.Expression}
* @private
*/
this.filter_ = goog.isDef(options.filter) ? options.filter : null;
this.filter_ = filter;
/**
* @type {Array.<ol.style.Symbolizer>}
@@ -33,7 +47,8 @@ ol.style.Rule = function(options) {
* @return {boolean} Does the rule apply to the feature?
*/
ol.style.Rule.prototype.applies = function(feature) {
return goog.isNull(this.filter_) ? true : this.filter_.applies(feature);
return goog.isNull(this.filter_) ?
true : !!ol.expr.evaluateFeature(this.filter_, feature);
};

94
src/ol/style/shape.js
View File

@@ -3,8 +3,9 @@ goog.provide('ol.style.ShapeLiteral');
goog.provide('ol.style.ShapeType');
goog.require('goog.asserts');
goog.require('ol.Expression');
goog.require('ol.ExpressionLiteral');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Literal');
goog.require('ol.style.Point');
goog.require('ol.style.PointLiteral');
@@ -106,22 +107,22 @@ ol.style.Shape = function(options) {
options.type : ol.style.ShapeDefaults.type);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.size_ = !goog.isDef(options.size) ?
new ol.ExpressionLiteral(ol.style.ShapeDefaults.size) :
(options.size instanceof ol.Expression) ?
options.size : new ol.ExpressionLiteral(options.size);
new ol.expr.Literal(ol.style.ShapeDefaults.size) :
(options.size instanceof ol.expr.Expression) ?
options.size : new ol.expr.Literal(options.size);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.fillColor_ = !goog.isDefAndNotNull(options.fillColor) ?
null :
(options.fillColor instanceof ol.Expression) ?
options.fillColor : new ol.ExpressionLiteral(options.fillColor);
(options.fillColor instanceof ol.expr.Expression) ?
options.fillColor : new ol.expr.Literal(options.fillColor);
// stroke handling - if any stroke property is supplied, use defaults
var strokeColor = null,
@@ -130,25 +131,34 @@ ol.style.Shape = function(options) {
if (goog.isDefAndNotNull(options.strokeColor) ||
goog.isDefAndNotNull(options.strokeWidth)) {
strokeColor = !goog.isDefAndNotNull(options.strokeColor) ?
new ol.ExpressionLiteral(ol.style.ShapeDefaults.strokeColor) :
(options.strokeColor instanceof ol.Expression) ?
options.strokeColor : new ol.ExpressionLiteral(options.strokeColor);
if (goog.isDefAndNotNull(options.strokeColor)) {
strokeColor = (options.strokeColor instanceof ol.expr.Expression) ?
options.strokeColor :
new ol.expr.Literal(options.strokeColor);
} else {
strokeColor = new ol.expr.Literal(
/** @type {string} */ (ol.style.ShapeDefaults.strokeColor));
}
if (goog.isDefAndNotNull(options.strokeWidth)) {
strokeWidth = (options.strokeWidth instanceof ol.expr.Expression) ?
options.strokeWidth :
new ol.expr.Literal(options.strokeWidth);
} else {
strokeWidth = new ol.expr.Literal(
/** @type {number} */ (ol.style.ShapeDefaults.strokeWidth));
}
strokeWidth = !goog.isDef(options.strokeWidth) ?
new ol.ExpressionLiteral(ol.style.ShapeDefaults.strokeWidth) :
(options.strokeWidth instanceof ol.Expression) ?
options.strokeWidth : new ol.ExpressionLiteral(options.strokeWidth);
}
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeColor_ = strokeColor;
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.strokeWidth_ = strokeWidth;
@@ -159,13 +169,13 @@ ol.style.Shape = function(options) {
'Stroke or fill properties must be provided');
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.opacity_ = !goog.isDef(options.opacity) ?
new ol.ExpressionLiteral(ol.style.ShapeDefaults.opacity) :
(options.opacity instanceof ol.Expression) ?
options.opacity : new ol.ExpressionLiteral(options.opacity);
new ol.expr.Literal(ol.style.ShapeDefaults.opacity) :
(options.opacity instanceof ol.expr.Expression) ?
options.opacity : new ol.expr.Literal(options.opacity);
};
@@ -175,36 +185,34 @@ ol.style.Shape = function(options) {
* @return {ol.style.ShapeLiteral} Literal shape symbolizer.
*/
ol.style.Shape.prototype.createLiteral = function(opt_feature) {
var attrs,
feature = opt_feature;
if (goog.isDef(feature)) {
attrs = feature.getAttributes();
}
var size = this.size_.evaluate(feature, attrs);
var size = ol.expr.evaluateFeature(this.size_, opt_feature);
goog.asserts.assertNumber(size, 'size must be a number');
var fillColor = goog.isNull(this.fillColor_) ?
undefined :
/** @type {string} */ (this.fillColor_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(fillColor) || goog.isString(fillColor));
var fillColor;
if (!goog.isNull(this.fillColor_)) {
fillColor = ol.expr.evaluateFeature(this.fillColor_, opt_feature);
goog.asserts.assertString(fillColor, 'fillColor must be a string');
}
var strokeColor = goog.isNull(this.strokeColor_) ?
undefined :
/** @type {string} */ (this.strokeColor_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(strokeColor) || goog.isString(strokeColor));
var strokeColor;
if (!goog.isNull(this.strokeColor_)) {
strokeColor = ol.expr.evaluateFeature(this.strokeColor_, opt_feature);
goog.asserts.assertString(strokeColor, 'strokeColor must be a string');
}
var strokeWidth = goog.isNull(this.strokeWidth_) ?
undefined :
/** @type {number} */ (this.strokeWidth_.evaluate(feature, attrs));
goog.asserts.assert(!goog.isDef(strokeWidth) || goog.isNumber(strokeWidth));
var strokeWidth;
if (!goog.isNull(this.strokeWidth_)) {
strokeWidth = ol.expr.evaluateFeature(this.strokeWidth_, opt_feature);
goog.asserts.assertNumber(strokeWidth, 'strokeWidth must be a number');
}
goog.asserts.assert(
goog.isDef(fillColor) ||
(goog.isDef(strokeColor) && goog.isDef(strokeWidth)),
'either fill style or strokeColor and strokeWidth must be defined');
'either fillColor or strokeColor and strokeWidth must be defined');
var opacity = this.opacity_.evaluate(feature, attrs);
var opacity = ol.expr.evaluateFeature(this.opacity_, opt_feature);
goog.asserts.assertNumber(opacity, 'opacity must be a number');
return new ol.style.ShapeLiteral({

67
src/ol/style/text.js
View File

@@ -2,8 +2,9 @@ goog.provide('ol.style.Text');
goog.provide('ol.style.TextLiteral');
goog.require('goog.asserts');
goog.require('ol.Expression');
goog.require('ol.ExpressionLiteral');
goog.require('ol.expr');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Literal');
goog.require('ol.style.Symbolizer');
goog.require('ol.style.SymbolizerLiteral');
@@ -26,18 +27,13 @@ ol.style.TextLiteralOptions;
*/
ol.style.TextLiteral = function(options) {
goog.asserts.assertString(options.color, 'color must be a string');
/** @type {string} */
this.color = options.color;
if (goog.isDef(options.color)) {
goog.asserts.assertString(options.color, 'color must be a string');
}
goog.asserts.assertString(options.fontFamily, 'fontFamily must be a string');
/** @type {string} */
this.fontFamily = options.fontFamily;
if (goog.isDef(options.fontFamily)) {
goog.asserts.assertString(options.fontFamily,
'fontFamily must be a string');
}
goog.asserts.assertNumber(options.fontSize, 'fontSize must be a number');
/** @type {number} */
@@ -75,47 +71,47 @@ ol.style.TextLiteral.prototype.equals = function(textLiteral) {
ol.style.Text = function(options) {
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.color_ = !goog.isDef(options.color) ?
new ol.ExpressionLiteral(ol.style.TextDefaults.color) :
(options.color instanceof ol.Expression) ?
options.color : new ol.ExpressionLiteral(options.color);
new ol.expr.Literal(ol.style.TextDefaults.color) :
(options.color instanceof ol.expr.Expression) ?
options.color : new ol.expr.Literal(options.color);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.fontFamily_ = !goog.isDef(options.fontFamily) ?
new ol.ExpressionLiteral(ol.style.TextDefaults.fontFamily) :
(options.fontFamily instanceof ol.Expression) ?
options.fontFamily : new ol.ExpressionLiteral(options.fontFamily);
new ol.expr.Literal(ol.style.TextDefaults.fontFamily) :
(options.fontFamily instanceof ol.expr.Expression) ?
options.fontFamily : new ol.expr.Literal(options.fontFamily);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.fontSize_ = !goog.isDef(options.fontSize) ?
new ol.ExpressionLiteral(ol.style.TextDefaults.fontSize) :
(options.fontSize instanceof ol.Expression) ?
options.fontSize : new ol.ExpressionLiteral(options.fontSize);
new ol.expr.Literal(ol.style.TextDefaults.fontSize) :
(options.fontSize instanceof ol.expr.Expression) ?
options.fontSize : new ol.expr.Literal(options.fontSize);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.text_ = (options.text instanceof ol.Expression) ?
options.text : new ol.ExpressionLiteral(options.text);
this.text_ = (options.text instanceof ol.expr.Expression) ?
options.text : new ol.expr.Literal(options.text);
/**
* @type {ol.Expression}
* @type {ol.expr.Expression}
* @private
*/
this.opacity_ = !goog.isDef(options.opacity) ?
new ol.ExpressionLiteral(ol.style.TextDefaults.opacity) :
(options.opacity instanceof ol.Expression) ?
options.opacity : new ol.ExpressionLiteral(options.opacity);
new ol.expr.Literal(ol.style.TextDefaults.opacity) :
(options.opacity instanceof ol.expr.Expression) ?
options.opacity : new ol.expr.Literal(options.opacity);
};
goog.inherits(ol.style.Text, ol.style.Symbolizer);
@@ -126,25 +122,20 @@ goog.inherits(ol.style.Text, ol.style.Symbolizer);
* @return {ol.style.TextLiteral} Literal text symbolizer.
*/
ol.style.Text.prototype.createLiteral = function(opt_feature) {
var attrs,
feature = opt_feature;
if (goog.isDef(feature)) {
attrs = feature.getAttributes();
}
var color = this.color_.evaluate(feature, attrs);
var color = ol.expr.evaluateFeature(this.color_, opt_feature);
goog.asserts.assertString(color, 'color must be a string');
var fontFamily = this.fontFamily_.evaluate(feature, attrs);
var fontFamily = ol.expr.evaluateFeature(this.fontFamily_, opt_feature);
goog.asserts.assertString(fontFamily, 'fontFamily must be a string');
var fontSize = this.fontSize_.evaluate(feature, attrs);
var fontSize = ol.expr.evaluateFeature(this.fontSize_, opt_feature);
goog.asserts.assertNumber(fontSize, 'fontSize must be a number');
var text = this.text_.evaluate(feature, attrs);
var text = ol.expr.evaluateFeature(this.text_, opt_feature);
goog.asserts.assertString(text, 'text must be a string');
var opacity = this.opacity_.evaluate(feature, attrs);
var opacity = ol.expr.evaluateFeature(this.opacity_, opt_feature);
goog.asserts.assertNumber(opacity, 'opacity must be a number');
return new ol.style.TextLiteral({

828
test/spec/ol/expr/expression.test.js Normal file
View File

@@ -0,0 +1,828 @@
goog.provide('ol.test.expression');
describe('ol.expr.parse()', function() {
it('parses a subset of ECMAScript 5.1 expressions', function() {
var expr = ol.expr.parse('foo');
expect(expr).to.be.a(ol.expr.Expression);
});
describe('11.1 - primary expressions', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.1
it('parses identifier expressions', function() {
var expr = ol.expr.parse('foo');
expect(expr).to.be.a(ol.expr.Identifier);
expect(expr.evaluate({foo: 'bar'})).to.be('bar');
});
it('consumes whitespace as expected', function() {
var expr = ol.expr.parse(' foo ');
expect(expr).to.be.a(ol.expr.Identifier);
expect(expr.evaluate({foo: 'bar'})).to.be('bar');
});
it('throws on invalid identifier expressions', function() {
expect(function() {
ol.expr.parse('3foo');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('f');
expect(token.index).to.be(1);
});
});
it('parses string literal expressions', function() {
var expr = ol.expr.parse('"foo"');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be('foo');
});
it('throws on unterminated string', function() {
expect(function() {
ol.expr.parse('"foo');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.type).to.be(ol.expr.TokenType.EOF);
expect(token.index).to.be(4);
});
});
it('parses numeric literal expressions', function() {
var expr = ol.expr.parse('.42e+2');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(42);
});
it('throws on invalid number', function() {
expect(function() {
ol.expr.parse('.42eX');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('X');
expect(token.index).to.be(4);
});
});
it('parses boolean literal expressions', function() {
var expr = ol.expr.parse('false');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(false);
});
it('parses null literal expressions', function() {
var expr = ol.expr.parse('null');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(null);
});
});
describe('11.2 - left-hand-side expressions', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.2
it('parses member expressions with dot notation', function() {
var expr = ol.expr.parse('foo.bar.baz');
expect(expr).to.be.a(ol.expr.Member);
var scope = {foo: {bar: {baz: 42}}};
expect(expr.evaluate(scope)).to.be(42);
});
it('consumes whitespace as expected', function() {
var expr = ol.expr.parse(' foo . bar . baz ');
expect(expr).to.be.a(ol.expr.Member);
var scope = {foo: {bar: {baz: 42}}};
expect(expr.evaluate(scope)).to.be(42);
});
it('throws on invalid member expression', function() {
expect(function() {
ol.expr.parse('foo.4bar');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('b');
expect(token.index).to.be(5);
});
});
it('parses call expressions with literal arguments', function() {
var expr = ol.expr.parse('foo(42, "bar")');
expect(expr).to.be.a(ol.expr.Call);
var scope = {
foo: function(num, str) {
expect(num).to.be(42);
expect(str).to.be('bar');
return str + num;
}
};
expect(expr.evaluate(scope)).to.be('bar42');
});
it('throws on calls with unterminated arguments', function() {
expect(function() {
ol.expr.parse('foo(42,)');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be(')');
expect(token.index).to.be(7);
});
});
});
describe('11.3 - postfix expressions', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.3
it('not supported');
});
describe('11.4 - unary operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.4
it('parses logical not operator', function() {
var expr = ol.expr.parse('!foo');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate({foo: true})).to.be(false);
expect(expr.evaluate({foo: false})).to.be(true);
expect(expr.evaluate({foo: ''})).to.be(true);
expect(expr.evaluate({foo: 'foo'})).to.be(false);
});
it('consumes whitespace as expected', function() {
var expr = ol.expr.parse(' ! foo');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate({foo: true})).to.be(false);
expect(expr.evaluate({foo: false})).to.be(true);
});
it('parses not preceeding call expression', function() {
var lib = {
foo: function() {
return true;
}
};
var expr = ol.expr.parse('!foo()');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate(null, lib)).to.be(false);
});
it('parses not in call argument', function() {
var lib = {
foo: function(arg) {
return arg;
}
};
var expr = ol.expr.parse('foo(!bar)');
expect(expr).to.be.a(ol.expr.Call);
expect(expr.evaluate({bar: true}, lib)).to.be(false);
expect(expr.evaluate({bar: false}, lib)).to.be(true);
});
});
describe('11.5 - multiplicitave operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.5
it('parses * operator', function() {
var expr = ol.expr.parse('foo*bar');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(200);
});
it('consumes whitespace as expected with *', function() {
var expr = ol.expr.parse(' foo * bar ');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 15, bar: 2})).to.be(30);
});
it('parses / operator', function() {
var expr = ol.expr.parse('foo/12');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 10})).to.be(10 / 12);
});
it('consumes whitespace as expected with /', function() {
var expr = ol.expr.parse(' 4 / bar ');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({bar: 3})).to.be(4 / 3);
});
it('parses % operator', function() {
var expr = ol.expr.parse('12%foo');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 10})).to.be(2);
});
it('consumes whitespace as expected with %', function() {
var expr = ol.expr.parse(' 4 %bar ');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({bar: 3})).to.be(1);
});
it('parses * in call argument', function() {
var lib = {
foo: function(arg) {
return arg;
}
};
var expr = ol.expr.parse('foo(2 * bar)');
expect(expr).to.be.a(ol.expr.Call);
expect(expr.evaluate({bar: 3}, lib)).to.be(6);
expect(expr.evaluate({bar: 4}, lib)).to.be(8);
});
it('evaluates left to right for equal precedence', function() {
var expr = ol.expr.parse('2 / 4 * 20 % 15');
expect(expr.evaluate()).to.be(10);
});
it('respects group precedence', function() {
expect(ol.expr.parse('2 / 4 * (20 % 15)').evaluate()).to.be(2.5);
expect(ol.expr.parse('2 / (4 * (20 % 15))').evaluate()).to.be(0.1);
expect(ol.expr.parse('2 / ((4 * 20) % 15)').evaluate()).to.be(0.4);
expect(ol.expr.parse('2 / (4 * 20) % 15').evaluate()).to.be(0.025);
expect(ol.expr.parse('(2 / (4 * 20)) % 15').evaluate()).to.be(0.025);
expect(ol.expr.parse('(2 / 4) * 20 % 15').evaluate()).to.be(10);
expect(ol.expr.parse('((2 / 4) * 20) % 15').evaluate()).to.be(10);
});
it('parses * in left side of comparison expression', function() {
var expr = ol.expr.parse('foo * 2 >bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 4, bar: 7})).to.be(true);
expect(expr.evaluate({foo: 4, bar: 8})).to.be(false);
});
it('parses * in right side of comparison expression', function() {
var expr = ol.expr.parse('foo > 2 * bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 4, bar: 1})).to.be(true);
expect(expr.evaluate({foo: 4, bar: 2})).to.be(false);
});
});
describe('11.6 - additive operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.6
it('parses + operator', function() {
var expr = ol.expr.parse('foo+bar');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(30);
});
it('consumes whitespace as expected with +', function() {
var expr = ol.expr.parse(' foo +10 ');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 15})).to.be(25);
});
it('parses - operator', function() {
var expr = ol.expr.parse('foo-bar');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(-10);
});
it('consumes whitespace as expected with -', function() {
var expr = ol.expr.parse(' foo- 10 ');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 15})).to.be(5);
});
it('respects precedence', function() {
expect(ol.expr.parse('2 + 4 * 20 - 15').evaluate()).to.be(67);
expect(ol.expr.parse('(2 + 4) * 20 - 15').evaluate()).to.be(105);
expect(ol.expr.parse('((2 + 4) * 20) - 15').evaluate()).to.be(105);
expect(ol.expr.parse('(2 + (4 * 20)) - 15').evaluate()).to.be(67);
expect(ol.expr.parse('2 + (4 * 20) - 15').evaluate()).to.be(67);
expect(ol.expr.parse('2 + ((4 * 20) - 15)').evaluate()).to.be(67);
expect(ol.expr.parse('2 + (4 * (20 - 15))').evaluate()).to.be(22);
expect(ol.expr.parse('2 + 4 * (20 - 15)').evaluate()).to.be(22);
});
it('parses + in call argument', function() {
var lib = {
foo: function(arg) {
return arg;
}
};
var expr = ol.expr.parse('foo(2 + bar)');
expect(expr).to.be.a(ol.expr.Call);
expect(expr.evaluate({bar: 3}, lib)).to.be(5);
expect(expr.evaluate({bar: 4}, lib)).to.be(6);
});
it('parses + in left side of comparison expression', function() {
var expr = ol.expr.parse('foo+2>bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 4, bar: 5})).to.be(true);
expect(expr.evaluate({foo: 4, bar: 6})).to.be(false);
});
it('parses + in right side of comparison expression', function() {
var expr = ol.expr.parse('foo >2 +bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 4, bar: 1})).to.be(true);
expect(expr.evaluate({foo: 4, bar: 2})).to.be(false);
});
});
describe('11.7 - bitwise shift operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.7
it('not supported');
});
describe('11.8 - relational operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.8
it('parses < operator', function() {
var expr = ol.expr.parse('foo<bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(true);
expect(expr.evaluate({foo: 100, bar: 20})).to.be(false);
});
it('consumes whitespace as expected with <', function() {
var expr = ol.expr.parse(' foo <10 ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 15})).to.be(false);
expect(expr.evaluate({foo: 5})).to.be(true);
});
it('parses > operator', function() {
var expr = ol.expr.parse('foo>bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(false);
expect(expr.evaluate({foo: 100, bar: 20})).to.be(true);
});
it('consumes whitespace as expected with >', function() {
var expr = ol.expr.parse(' foo> 10 ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 15})).to.be(true);
expect(expr.evaluate({foo: 5})).to.be(false);
});
it('parses <= operator', function() {
var expr = ol.expr.parse('foo<=bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(true);
expect(expr.evaluate({foo: 100, bar: 20})).to.be(false);
expect(expr.evaluate({foo: 20, bar: 20})).to.be(true);
});
it('consumes whitespace as expected with <=', function() {
var expr = ol.expr.parse(' foo<= 10 ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 15})).to.be(false);
expect(expr.evaluate({foo: 5})).to.be(true);
expect(expr.evaluate({foo: 10})).to.be(true);
});
it('throws for invalid spacing with <=', function() {
expect(function() {
ol.expr.parse(' foo< = 10 ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('=');
expect(token.index).to.be(6);
});
});
it('parses >= operator', function() {
var expr = ol.expr.parse('foo>=bar');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 10, bar: 20})).to.be(false);
expect(expr.evaluate({foo: 100, bar: 20})).to.be(true);
expect(expr.evaluate({foo: 20, bar: 20})).to.be(true);
});
it('consumes whitespace as expected with >=', function() {
var expr = ol.expr.parse(' foo >=10 ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 15})).to.be(true);
expect(expr.evaluate({foo: 5})).to.be(false);
expect(expr.evaluate({foo: 10})).to.be(true);
});
it('throws for invalid spacing with >=', function() {
expect(function() {
ol.expr.parse(' 10 > =foo ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('=');
expect(token.index).to.be(6);
});
});
});
describe('11.9 - equality operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.9
it('parses == operator', function() {
var expr = ol.expr.parse('foo==42');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(true);
});
it('consumes whitespace as expected with ==', function() {
var expr = ol.expr.parse(' 42 ==foo ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(true);
});
it('throws for invalid spacing with ==', function() {
expect(function() {
ol.expr.parse(' 10 = =foo ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('=');
expect(token.index).to.be(4);
});
});
it('parses != operator', function() {
var expr = ol.expr.parse('foo!=42');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(false);
});
it('consumes whitespace as expected with !=', function() {
var expr = ol.expr.parse(' 42 !=foo ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(false);
});
it('throws for invalid spacing with !=', function() {
expect(function() {
ol.expr.parse(' 10! =foo ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('!');
expect(token.index).to.be(3);
});
});
it('parses === operator', function() {
var expr = ol.expr.parse('42===foo');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(false);
});
it('consumes whitespace as expected with ===', function() {
var expr = ol.expr.parse(' foo ===42 ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(false);
});
it('throws for invalid spacing with ===', function() {
expect(function() {
ol.expr.parse(' 10 = == foo ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('=');
expect(token.index).to.be(4);
});
});
it('parses !== operator', function() {
var expr = ol.expr.parse('foo!==42');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(true);
});
it('consumes whitespace as expected with !==', function() {
var expr = ol.expr.parse(' 42 !== foo ');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(true);
});
it('throws for invalid spacing with !==', function() {
expect(function() {
ol.expr.parse(' 10 != = foo ');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('=');
expect(token.index).to.be(7);
});
});
});
describe('11.10 - binary bitwise operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.10
it('not supported');
});
describe('11.11 - binary logical operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.11
it('parses && operator', function() {
var expr = ol.expr.parse('foo&&bar');
expect(expr).to.be.a(ol.expr.Logical);
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(false);
expect(expr.evaluate({foo: false, bar: true})).to.be(false);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
it('consumes space as expected with &&', function() {
var expr = ol.expr.parse(' foo && bar ');
expect(expr).to.be.a(ol.expr.Logical);
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(false);
expect(expr.evaluate({foo: false, bar: true})).to.be(false);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
it('throws for invalid spacing with &&', function() {
expect(function() {
ol.expr.parse('true & & false');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('&');
expect(token.index).to.be(5);
});
});
it('parses || operator', function() {
var expr = ol.expr.parse('foo||bar');
expect(expr).to.be.a(ol.expr.Logical);
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(true);
expect(expr.evaluate({foo: false, bar: true})).to.be(true);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
it('consumes space as expected with ||', function() {
var expr = ol.expr.parse(' foo || bar ');
expect(expr).to.be.a(ol.expr.Logical);
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(true);
expect(expr.evaluate({foo: false, bar: true})).to.be(true);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
it('throws for invalid spacing with ||', function() {
expect(function() {
ol.expr.parse('true | | false');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('|');
expect(token.index).to.be(5);
});
});
});
describe('11.12 - conditional operator', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.12
it('not supported');
});
describe('11.13 - assignment operators', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.13
it('not supported');
});
describe('11.14 - comma operator', function() {
// http://www.ecma-international.org/ecma-262/5.1/#sec-11.14
it('not supported');
});
});
describe('ol.expr.lib', function() {
var parse = ol.expr.parse;
var evaluate = ol.expr.evaluateFeature;
describe('extent()', function() {
var nw = new ol.Feature({
geom: new ol.geom.Polygon([[
[-180, 90], [0, 90], [0, 0], [-180, 0], [-180, 90]
]])
});
var se = new ol.Feature({
geom: new ol.geom.Polygon([[
[180, -90], [0, -90], [0, 0], [180, 0], [180, -90]
]])
});
var north = parse('extent(-100, 100, 40, 60)');
var south = parse('extent(-100, 100, -60, -40)');
var east = parse('extent(80, 100, -50, 50)');
var west = parse('extent(-100, -80, -50, 50)');
it('evaluates to true for features within given extent', function() {
expect(evaluate(north, nw), true);
expect(evaluate(south, nw), false);
expect(evaluate(east, nw), false);
expect(evaluate(west, nw), true);
expect(evaluate(north, se), false);
expect(evaluate(south, se), true);
expect(evaluate(east, se), true);
expect(evaluate(west, se), false);
});
});
describe('fid()', function() {
var one = new ol.Feature();
one.setFeatureId('one');
var two = new ol.Feature();
two.setFeatureId('two');
var three = new ol.Feature();
three.setFeatureId('three');
var four = new ol.Feature();
four.setFeatureId('four');
var odd = parse('fid("one", "three")');
var even = parse('fid("two", "four")');
var first = parse('fid("one")');
var last = parse('fid("four")');
var none = parse('fid("foo")');
it('evaluates to true if feature id matches', function() {
expect(evaluate(odd, one), true);
expect(evaluate(odd, three), true);
expect(evaluate(even, two), true);
expect(evaluate(even, four), true);
expect(evaluate(first, one), true);
expect(evaluate(last, four), true);
});
it('evaluates to false if feature id doesn\'t match', function() {
expect(evaluate(odd, two), false);
expect(evaluate(odd, four), false);
expect(evaluate(even, one), false);
expect(evaluate(even, three), false);
expect(evaluate(first, two), false);
expect(evaluate(first, three), false);
expect(evaluate(first, four), false);
expect(evaluate(last, one), false);
expect(evaluate(last, two), false);
expect(evaluate(last, three), false);
expect(evaluate(none, one), false);
expect(evaluate(none, two), false);
expect(evaluate(none, three), false);
expect(evaluate(none, four), false);
});
});
describe('geometryType()', function() {
var point = new ol.Feature({
geom: new ol.geom.Point([0, 0])
});
var line = new ol.Feature({
geom: new ol.geom.LineString([[180, -90], [-180, 90]])
});
var poly = new ol.Feature({
geom: new ol.geom.Polygon([[
[180, -90], [0, -90], [0, 0], [180, 0], [180, -90]
]])
});
var isPoint = parse('geometryType("point")');
var isLine = parse('geometryType("linestring")');
var isPoly = parse('geometryType("polygon")');
var pointOrPoly = parse('geometryType("point") || geometryType("polygon")');
it('distinguishes point features', function() {
expect(evaluate(isPoint, point), true);
expect(evaluate(isPoint, line), false);
expect(evaluate(isPoint, poly), false);
});
it('distinguishes line features', function() {
expect(evaluate(isLine, point), false);
expect(evaluate(isLine, line), true);
expect(evaluate(isLine, poly), false);
});
it('distinguishes polygon features', function() {
expect(evaluate(isPoly, point), false);
expect(evaluate(isPoly, line), false);
expect(evaluate(isPoly, poly), true);
});
it('can be composed in a logical expression', function() {
expect(evaluate(pointOrPoly, point), true);
expect(evaluate(pointOrPoly, line), false);
expect(evaluate(pointOrPoly, poly), true);
});
});
});
describe('ol.expr.register()', function() {
var spy;
beforeEach(function() {
spy = sinon.spy();
});
it('registers custom functions in ol.expr.lib', function() {
ol.expr.register('someFunc', spy);
expect(ol.expr.lib.someFunc).to.be(spy);
});
it('allows custom functions to be called', function() {
ol.expr.register('myFunc', spy);
var expr = ol.expr.parse('myFunc(42)');
expr.evaluate(null, ol.expr.lib);
expect(spy.calledOnce);
expect(spy.calledWithExactly(42));
});
it('allows custom functions to be called with identifiers', function() {
ol.expr.register('myFunc', spy);
var expr = ol.expr.parse('myFunc(foo, 42)');
expr.evaluate({foo: 'bar'}, ol.expr.lib);
expect(spy.calledOnce);
expect(spy.calledWithExactly('bar', 42));
});
it('allows custom functions to be called with custom this obj', function() {
ol.expr.register('myFunc', spy);
var expr = ol.expr.parse('myFunc(foo, 42)');
var that = {};
expr.evaluate({foo: 'bar'}, ol.expr.lib, that);
expect(spy.calledOnce);
expect(spy.calledWithExactly('bar', 42));
expect(spy.calledOn(that));
});
it('allows overriding existing ol.expr.lib functions', function() {
var orig = ol.expr.lib.extent;
expect(orig).not.to.be(spy);
ol.expr.register('extent', spy);
expect(ol.expr.lib.extent).to.be(spy);
ol.expr.lib.extent = orig;
});
});
goog.require('ol.Feature');
goog.require('ol.expr');
goog.require('ol.expr.Call');
goog.require('ol.expr.Comparison');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Identifier');
goog.require('ol.expr.Literal');
goog.require('ol.expr.Logical');
goog.require('ol.expr.Math');
goog.require('ol.expr.Member');
goog.require('ol.expr.Not');
goog.require('ol.expr.TokenType');
goog.require('ol.expr.UnexpectedToken');
goog.require('ol.geom.LineString');
goog.require('ol.geom.Point');
goog.require('ol.geom.Polygon');

638
test/spec/ol/expr/expressions.test.js Normal file
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goog.provide('ol.test.expression.Expression');
describe('ol.expr.Call', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Call(
new ol.expr.Identifier('sqrt'),
[new ol.expr.Literal(42)]);
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Call);
});
});
describe('#evaluate()', function() {
var fns = {
sqrt: function(value) {
return Math.sqrt(value);
},
strConcat: function() {
return Array.prototype.join.call(arguments, '');
},
discouraged: function() {
return this.message;
}
};
it('calls method on scope with literal args', function() {
var expr = new ol.expr.Call(
new ol.expr.Identifier('sqrt'),
[new ol.expr.Literal(42)]);
expect(expr.evaluate(fns)).to.be(Math.sqrt(42));
});
it('accepts a separate scope for functions', function() {
var expr = new ol.expr.Call(
new ol.expr.Identifier('sqrt'),
[new ol.expr.Identifier('foo')]);
expect(expr.evaluate({foo: 42}, fns)).to.be(Math.sqrt(42));
});
it('accepts multiple expression arguments', function() {
var expr = new ol.expr.Call(
new ol.expr.Identifier('strConcat'),
[
new ol.expr.Identifier('foo'),
new ol.expr.Literal(' comes after '),
new ol.expr.Math(
ol.expr.MathOp.SUBTRACT,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(1))
]);
expect(expr.evaluate({foo: 42}, fns)).to.be('42 comes after 41');
});
it('accepts optional this arg', function() {
var expr = new ol.expr.Call(
new ol.expr.Identifier('discouraged'), []);
var thisArg = {
message: 'avoid this'
};
expect(expr.evaluate(fns, null, thisArg)).to.be('avoid this');
});
});
var callee = new ol.expr.Identifier('sqrt');
var args = [new ol.expr.Literal(42)];
var expr = new ol.expr.Call(callee, args);
describe('#getArgs()', function() {
it('gets the callee expression', function() {
expect(expr.getArgs()).to.be(args);
});
});
describe('#getCallee()', function() {
it('gets the callee expression', function() {
expect(expr.getCallee()).to.be(callee);
});
});
});
describe('ol.expr.Comparison', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.EQ,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Comparison);
});
});
describe('#evaluate()', function() {
it('compares with ==', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.EQ,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(true);
expect(expr.evaluate({foo: true})).to.be(false);
expect(expr.evaluate({bar: true})).to.be(false);
});
it('compares with !=', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.NEQ,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(false);
expect(expr.evaluate({foo: true})).to.be(true);
expect(expr.evaluate({bar: true})).to.be(true);
});
it('compares with ===', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.STRICT_EQ,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: '42'})).to.be(false);
expect(expr.evaluate({foo: true})).to.be(false);
expect(expr.evaluate({bar: true})).to.be(false);
});
it('compares with !==', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.STRICT_NEQ,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: '42'})).to.be(true);
expect(expr.evaluate({foo: true})).to.be(true);
expect(expr.evaluate({bar: true})).to.be(true);
});
it('compares with >', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.GT,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: 43})).to.be(true);
});
it('compares with <', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.LT,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(false);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: 43})).to.be(false);
});
it('compares with >=', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.GTE,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(false);
expect(expr.evaluate({foo: 43})).to.be(true);
});
it('compares with <=', function() {
var expr = new ol.expr.Comparison(
ol.expr.ComparisonOp.LTE,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(42));
expect(expr.evaluate({foo: 42})).to.be(true);
expect(expr.evaluate({foo: 41})).to.be(true);
expect(expr.evaluate({foo: 43})).to.be(false);
});
});
describe('#isValidOp()', function() {
it('determines if a string is a valid operator', function() {
expect(ol.expr.Comparison.isValidOp('<')).to.be(true);
expect(ol.expr.Comparison.isValidOp('<')).to.be(true);
expect(ol.expr.Comparison.isValidOp('<=')).to.be(true);
expect(ol.expr.Comparison.isValidOp('<=')).to.be(true);
expect(ol.expr.Comparison.isValidOp('==')).to.be(true);
expect(ol.expr.Comparison.isValidOp('!=')).to.be(true);
expect(ol.expr.Comparison.isValidOp('===')).to.be(true);
expect(ol.expr.Comparison.isValidOp('!==')).to.be(true);
expect(ol.expr.Comparison.isValidOp('')).to.be(false);
expect(ol.expr.Comparison.isValidOp('+')).to.be(false);
expect(ol.expr.Comparison.isValidOp('-')).to.be(false);
expect(ol.expr.Comparison.isValidOp('&&')).to.be(false);
});
});
var op = ol.expr.ComparisonOp.LTE;
var left = new ol.expr.Identifier('foo');
var right = new ol.expr.Literal(42);
var expr = new ol.expr.Comparison(op, left, right);
describe('#getOperator()', function() {
it('gets the operator', function() {
expect(expr.getOperator()).to.be(op);
});
});
describe('#getLeft()', function() {
it('gets the left expression', function() {
expect(expr.getLeft()).to.be(left);
});
});
describe('#getRight()', function() {
it('gets the right expression', function() {
expect(expr.getRight()).to.be(right);
});
});
});
describe('ol.expr.Identifier', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Identifier('foo');
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Identifier);
});
});
describe('#evaluate()', function() {
it('returns a number from the scope', function() {
var expr = new ol.expr.Identifier('foo');
expect(expr.evaluate({foo: 42})).to.be(42);
});
it('returns a string from the scope', function() {
var expr = new ol.expr.Identifier('foo');
expect(expr.evaluate({foo: 'chicken'})).to.be('chicken');
});
it('returns a boolean from the scope', function() {
var expr = new ol.expr.Identifier('bar');
expect(expr.evaluate({bar: false})).to.be(false);
expect(expr.evaluate({bar: true})).to.be(true);
});
it('returns a null from the scope', function() {
var expr = new ol.expr.Identifier('nada');
expect(expr.evaluate({nada: null})).to.be(null);
});
it('works for unicode identifiers', function() {
var expr = new ol.expr.Identifier('\u03c0');
expect(expr.evaluate({'\u03c0': Math.PI})).to.be(Math.PI);
});
});
describe('#getName()', function() {
var expr = new ol.expr.Identifier('asdf');
expect(expr.getName()).to.be('asdf');
});
});
describe('ol.expr.Literal', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Literal(true);
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Literal);
});
});
describe('#evaluate()', function() {
it('works for numeric literal', function() {
var expr = new ol.expr.Literal(42e-11);
expect(expr.evaluate()).to.be(4.2e-10);
});
it('works for string literal', function() {
var expr = new ol.expr.Literal('asdf');
expect(expr.evaluate()).to.be('asdf');
});
it('works for boolean literal', function() {
var expr = new ol.expr.Literal(true);
expect(expr.evaluate()).to.be(true);
});
it('works for null literal', function() {
var expr = new ol.expr.Literal(null);
expect(expr.evaluate()).to.be(null);
});
});
describe('#getValue()', function() {
var expr = new ol.expr.Literal('asdf');
expect(expr.getValue()).to.be('asdf');
});
});
describe('ol.expr.Logical', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Logical(
ol.expr.LogicalOp.OR,
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Logical);
});
});
describe('#evaluate()', function() {
it('applies || to resolved identifiers', function() {
var expr = new ol.expr.Logical(
ol.expr.LogicalOp.OR,
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(true);
expect(expr.evaluate({foo: false, bar: true})).to.be(true);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
it('applies && to resolved identifiers', function() {
var expr = new ol.expr.Logical(
ol.expr.LogicalOp.AND,
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
expect(expr.evaluate({foo: true, bar: true})).to.be(true);
expect(expr.evaluate({foo: true, bar: false})).to.be(false);
expect(expr.evaluate({foo: false, bar: true})).to.be(false);
expect(expr.evaluate({foo: false, bar: false})).to.be(false);
});
});
describe('#isValidOp()', function() {
it('determines if a string is a valid operator', function() {
expect(ol.expr.Logical.isValidOp('||')).to.be(true);
expect(ol.expr.Logical.isValidOp('&&')).to.be(true);
expect(ol.expr.Logical.isValidOp('')).to.be(false);
expect(ol.expr.Logical.isValidOp('+')).to.be(false);
expect(ol.expr.Logical.isValidOp('<')).to.be(false);
expect(ol.expr.Logical.isValidOp('|')).to.be(false);
});
});
var op = ol.expr.LogicalOp.AND;
var left = new ol.expr.Identifier('foo');
var right = new ol.expr.Literal(false);
var expr = new ol.expr.Logical(op, left, right);
describe('#getOperator()', function() {
it('gets the operator', function() {
expect(expr.getOperator()).to.be(op);
});
});
describe('#getLeft()', function() {
it('gets the left expression', function() {
expect(expr.getLeft()).to.be(left);
});
});
describe('#getRight()', function() {
it('gets the right expression', function() {
expect(expr.getRight()).to.be(right);
});
});
});
describe('ol.expr.Math', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.ADD,
new ol.expr.Literal(40),
new ol.expr.Literal(2));
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Math);
});
});
describe('#evaluate()', function() {
it('does + with numeric literal', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.ADD,
new ol.expr.Literal(40),
new ol.expr.Literal(2));
expect(expr.evaluate()).to.be(42);
});
it('does + with string literal (note: subject to change)', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.ADD,
new ol.expr.Literal('foo'),
new ol.expr.Literal('bar'));
expect(expr.evaluate()).to.be('foobar');
});
it('does + with identifiers', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.ADD,
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
expect(expr.evaluate({foo: 40, bar: 2})).to.be(42);
});
it('does - with identifiers', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.SUBTRACT,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(2));
expect(expr.evaluate({foo: 40})).to.be(38);
});
it('casts to number with - (note: this may throw later)', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.SUBTRACT,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(2));
expect(expr.evaluate({foo: '40'})).to.be(38);
});
it('does * with identifiers', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.MULTIPLY,
new ol.expr.Literal(2),
new ol.expr.Identifier('foo'));
expect(expr.evaluate({foo: 21})).to.be(42);
});
it('casts to number with * (note: this may throw later)', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.MULTIPLY,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(2));
expect(expr.evaluate({foo: '21'})).to.be(42);
});
it('does % with identifiers', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.MOD,
new ol.expr.Literal(97),
new ol.expr.Identifier('foo'));
expect(expr.evaluate({foo: 55})).to.be(42);
});
it('casts to number with % (note: this may throw later)', function() {
var expr = new ol.expr.Math(
ol.expr.MathOp.MOD,
new ol.expr.Identifier('foo'),
new ol.expr.Literal(100));
expect(expr.evaluate({foo: '150'})).to.be(50);
});
});
describe('#isValidOp()', function() {
it('determines if a string is a valid operator', function() {
expect(ol.expr.Math.isValidOp('+')).to.be(true);
expect(ol.expr.Math.isValidOp('-')).to.be(true);
expect(ol.expr.Math.isValidOp('*')).to.be(true);
expect(ol.expr.Math.isValidOp('/')).to.be(true);
expect(ol.expr.Math.isValidOp('%')).to.be(true);
expect(ol.expr.Math.isValidOp('')).to.be(false);
expect(ol.expr.Math.isValidOp('|')).to.be(false);
expect(ol.expr.Math.isValidOp('&')).to.be(false);
expect(ol.expr.Math.isValidOp('<')).to.be(false);
expect(ol.expr.Math.isValidOp('||')).to.be(false);
expect(ol.expr.Math.isValidOp('.')).to.be(false);
});
});
var op = ol.expr.MathOp.MOD;
var left = new ol.expr.Identifier('foo');
var right = new ol.expr.Literal(20);
var expr = new ol.expr.Math(op, left, right);
describe('#getOperator()', function() {
it('gets the operator', function() {
expect(expr.getOperator()).to.be(op);
});
});
describe('#getLeft()', function() {
it('gets the left expression', function() {
expect(expr.getLeft()).to.be(left);
});
});
describe('#getRight()', function() {
it('gets the right expression', function() {
expect(expr.getRight()).to.be(right);
});
});
});
describe('ol.expr.Member', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Member(
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Member);
});
});
describe('#evaluate()', function() {
it('accesses an object property', function() {
var expr = new ol.expr.Member(
new ol.expr.Identifier('foo'),
new ol.expr.Identifier('bar'));
var scope = {foo: {bar: 42}};
expect(expr.evaluate(scope)).to.be(42);
});
});
var object = new ol.expr.Identifier('foo');
var property = new ol.expr.Identifier('bar');
var expr = new ol.expr.Member(object, property);
describe('#getObject()', function() {
expect(expr.getObject()).to.be(object);
});
describe('#getProperty()', function() {
expect(expr.getProperty()).to.be(property);
});
});
describe('ol.expr.Not', function() {
describe('constructor', function() {
it('creates a new expression', function() {
var expr = new ol.expr.Not(
new ol.expr.Literal(true));
expect(expr).to.be.a(ol.expr.Expression);
expect(expr).to.be.a(ol.expr.Not);
});
});
describe('#evaluate()', function() {
it('returns the logical complement', function() {
var expr = new ol.expr.Not(new ol.expr.Literal(true));
expect(expr.evaluate()).to.be(false);
expr = new ol.expr.Not(new ol.expr.Literal(false));
expect(expr.evaluate()).to.be(true);
});
it('negates a truthy string', function() {
var expr = new ol.expr.Not(new ol.expr.Literal('asdf'));
expect(expr.evaluate()).to.be(false);
});
it('negates a falsy string', function() {
var expr = new ol.expr.Not(new ol.expr.Literal(''));
expect(expr.evaluate()).to.be(true);
});
it('negates a truthy number', function() {
var expr = new ol.expr.Not(new ol.expr.Literal(42));
expect(expr.evaluate()).to.be(false);
});
it('negates a falsy number', function() {
var expr = new ol.expr.Not(new ol.expr.Literal(NaN));
expect(expr.evaluate()).to.be(true);
});
});
describe('#getArgument()', function() {
var argument = new ol.expr.Literal(true);
var expr = new ol.expr.Not(argument);
expect(expr.getArgument()).to.be(argument);
});
});
goog.require('ol.expr.Call');
goog.require('ol.expr.Comparison');
goog.require('ol.expr.ComparisonOp');
goog.require('ol.expr.Expression');
goog.require('ol.expr.Identifier');
goog.require('ol.expr.Literal');
goog.require('ol.expr.Logical');
goog.require('ol.expr.LogicalOp');
goog.require('ol.expr.Math');
goog.require('ol.expr.MathOp');
goog.require('ol.expr.Member');
goog.require('ol.expr.Not');

509
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goog.provide('ol.test.expression.Lexer');
describe('ol.expr.Lexer', function() {
describe('constructor', function() {
it('creates a new lexer', function() {
var lexer = new ol.expr.Lexer('foo');
expect(lexer).to.be.a(ol.expr.Lexer);
});
});
describe('#next()', function() {
it('returns one token at a time', function() {
var source = 'foo === "bar"';
var lexer = new ol.expr.Lexer(source);
// scan first token
var token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
// scan second token
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
expect(token.value).to.be('===');
// scan third token
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
expect(token.value).to.be('bar');
// scan again
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.EOF);
// and again
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.EOF);
});
});
describe('#peek()', function() {
var lexer;
beforeEach(function() {
lexer = new ol.expr.Lexer('foo > 42 && bar == "chicken"');
});
it('looks ahead without consuming token', function() {
var token = lexer.peek();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
});
it('works after a couple scans', function() {
var token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
expect(token.value).to.be('>');
token = lexer.peek();
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
expect(token.value).to.be(42);
token = lexer.next();
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
expect(token.value).to.be(42);
});
it('returns the same thing when called multiple times', function() {
var token = lexer.peek();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
for (var i = 0; i < 10; ++i) {
token = lexer.peek();
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
expect(token.value).to.be('foo');
}
});
});
describe('#scanIdentifier_()', function() {
function scan(source, part) {
var lexer = new ol.expr.Lexer(source);
var token = lexer.scanIdentifier_(lexer.getCurrentCharCode_());
if (!part) {
expect(token.index).to.be(0);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
}
return token;
}
it('works for short identifiers', function() {
var token = scan('a');
expect(token.value).to.be('a');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('works for longer identifiers', function() {
var token = scan('foo');
expect(token.value).to.be('foo');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('works for $ anywhere', function() {
var token = scan('$foo$bar$');
expect(token.value).to.be('$foo$bar$');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('works for _ anywhere', function() {
var token = scan('_foo_bar_');
expect(token.value).to.be('_foo_bar_');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('works for keywords', function() {
var token = scan('delete');
expect(token.value).to.be('delete');
expect(token.type).to.be(ol.expr.TokenType.KEYWORD);
});
it('works for null', function() {
var token = scan('null');
expect(token.value).to.be('null');
expect(token.type).to.be(ol.expr.TokenType.NULL_LITERAL);
});
it('works for boolean true', function() {
var token = scan('true');
expect(token.value).to.be('true');
expect(token.type).to.be(ol.expr.TokenType.BOOLEAN_LITERAL);
});
it('works for boolean false', function() {
var token = scan('false');
expect(token.value).to.be('false');
expect(token.type).to.be(ol.expr.TokenType.BOOLEAN_LITERAL);
});
it('works with unicode escape sequences', function() {
var token = scan('\u006f\u006c\u0033');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('works with hex escape sequences', function() {
var token = scan('\x6f\x6c\x33');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
it('throws for identifiers starting with a number', function() {
expect(function() {
scan('4foo');
}).throwException();
});
it('throws for identifiers starting with a punctuation char', function() {
expect(function() {
scan('!foo');
}).throwException();
});
it('only scans valid identifier part', function() {
var token = scan('foo>bar', true);
expect(token.value).to.be('foo');
expect(token.type).to.be(ol.expr.TokenType.IDENTIFIER);
});
});
describe('#scanNumericLiteral_()', function() {
function scan(source) {
var lexer = new ol.expr.Lexer(source);
var token = lexer.scanNumericLiteral_(lexer.getCurrentCharCode_());
expect(token.index).to.be(0);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return token;
}
it('works for integers', function() {
var token = scan('123');
expect(token.value).to.be(123);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('throws for bogus integer', function() {
expect(function() {
scan('123z');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('z');
expect(token.index).to.be(3);
});
});
it('works for float', function() {
var token = scan('123.456');
expect(token.value).to.be(123.456);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('throws for bogus float', function() {
expect(function() {
scan('123.4x4');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('x');
expect(token.index).to.be(5);
});
});
it('works with exponent', function() {
var token = scan('1.234e5');
expect(token.value).to.be(1.234e5);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('works with explicit positive exponent', function() {
var token = scan('1.234e+5');
expect(token.value).to.be(1.234e5);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('works with negative exponent', function() {
var token = scan('1.234e-5');
expect(token.value).to.be(1.234e-5);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('throws for bogus float', function() {
expect(function() {
scan('1.234eo4');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('o');
expect(token.index).to.be(6);
});
});
it('works with octals', function() {
var token = scan('02322');
expect(token.value).to.be(1234);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('throws for bogus octal', function() {
// note that this is more strict than most es5 engines
expect(function() {
scan('02392');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('9');
expect(token.index).to.be(3);
});
});
it('works with hex', function() {
var token = scan('0x4d2');
expect(token.value).to.be(1234);
expect(token.type).to.be(ol.expr.TokenType.NUMERIC_LITERAL);
});
it('throws for bogus hex', function() {
// note that this is more strict than most es5 engines
expect(function() {
scan('0x4G');
}).throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.value).to.be('G');
expect(token.index).to.be(3);
});
});
});
describe('#scanPunctuator_()', function() {
function scan(source) {
var lexer = new ol.expr.Lexer(source);
var token = lexer.scanPunctuator_(lexer.getCurrentCharCode_());
expect(token.index).to.be(0);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return token;
}
it('works for dot', function() {
var token = scan('.');
expect(token.value).to.be('.');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for bang', function() {
var token = scan('!');
expect(token.value).to.be('!');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for double equal', function() {
var token = scan('==');
expect(token.value).to.be('==');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for triple equal', function() {
var token = scan('===');
expect(token.value).to.be('===');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for not double equal', function() {
var token = scan('!=');
expect(token.value).to.be('!=');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for not triple equal', function() {
var token = scan('!==');
expect(token.value).to.be('!==');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for logical or', function() {
var token = scan('||');
expect(token.value).to.be('||');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for logical and', function() {
var token = scan('&&');
expect(token.value).to.be('&&');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for plus', function() {
var token = scan('+');
expect(token.value).to.be('+');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for minus', function() {
var token = scan('-');
expect(token.value).to.be('-');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for star', function() {
var token = scan('*');
expect(token.value).to.be('*');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for slash', function() {
var token = scan('/');
expect(token.value).to.be('/');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
it('works for percent', function() {
var token = scan('%');
expect(token.value).to.be('%');
expect(token.type).to.be(ol.expr.TokenType.PUNCTUATOR);
});
});
describe('#scanStringLiteral_()', function() {
function scan(source) {
var lexer = new ol.expr.Lexer(source);
var token = lexer.scanStringLiteral_(lexer.getCurrentCharCode_());
expect(token.index).to.be(0);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return token;
}
it('parses double quoted string', function() {
var token = scan('"my string"');
expect(token.value).to.be('my string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with internal single quotes', function() {
var token = scan('"my \'quoted\' string"');
expect(token.value).to.be('my \'quoted\' string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with escaped double quotes', function() {
var token = scan('"my \\"quoted\\" string"');
expect(token.value).to.be('my "quoted" string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with escaped backslash', function() {
var token = scan('"my \\\ string"');
expect(token.value).to.be('my \ string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with unicode escape sequences', function() {
var token = scan('"\u006f\u006c\u0033"');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with hex escape sequences', function() {
var token = scan('"\x6f\x6c\x33"');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses double quoted string with tab', function() {
var token = scan('"a\ttab"');
expect(token.value).to.be('a\ttab');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('throws on unterminated double quote', function() {
expect(function() {
scan('"never \'ending\' string');
}).to.throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.type).to.be(ol.expr.TokenType.EOF);
expect(token.index).to.be(22);
});
});
it('parses single quoted string', function() {
var token = scan('\'my string\'');
expect(token.value).to.be('my string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with internal double quotes', function() {
var token = scan('\'my "quoted" string\'');
expect(token.value).to.be('my "quoted" string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with escaped single quotes', function() {
var token = scan('\'my \\\'quoted\\\' string\'');
expect(token.value).to.be('my \'quoted\' string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with escaped backslash', function() {
var token = scan('\'my \\\ string\'');
expect(token.value).to.be('my \ string');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with unicode escape sequences', function() {
var token = scan('\'\u006f\u006c\u0033\'');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with hex escape sequences', function() {
var token = scan('\'\x6f\x6c\x33\'');
expect(token.value).to.be('ol3');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('parses single quoted string with tab', function() {
var token = scan('\'a\ttab\'');
expect(token.value).to.be('a\ttab');
expect(token.type).to.be(ol.expr.TokenType.STRING_LITERAL);
});
it('throws on unterminated single quote', function() {
expect(function() {
scan('\'never "ending" string');
}).to.throwException(function(err) {
expect(err).to.be.an(ol.expr.UnexpectedToken);
var token = err.token;
expect(token.type).to.be(ol.expr.TokenType.EOF);
expect(token.index).to.be(22);
});
});
});
});
goog.require('ol.expr.Lexer');
goog.require('ol.expr.TokenType');
goog.require('ol.expr.UnexpectedToken');

275
test/spec/ol/expr/parser.test.js Normal file
View File

@@ -0,0 +1,275 @@
goog.provide('ol.test.expression.Parser');
describe('ol.expr.Parser', function() {
describe('constructor', function() {
it('creates a new expression parser', function() {
var parser = new ol.expr.Parser();
expect(parser).to.be.a(ol.expr.Parser);
});
});
describe('#parseArguments_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parseArguments_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('parses comma separated expressions in parens', function() {
var args = parse('(1/3, "foo", true)');
expect(args).length(3);
expect(args[0]).to.be.a(ol.expr.Math);
expect(args[0].evaluate()).to.be(1 / 3);
expect(args[1]).to.be.a(ol.expr.Literal);
expect(args[1].evaluate()).to.be('foo');
expect(args[2]).to.be.a(ol.expr.Literal);
expect(args[2].evaluate()).to.be(true);
});
it('throws on invalid arg expression', function() {
expect(function() {
parse('(6e)');
}).throwException();
});
it('throws on unterminated args', function() {
expect(function() {
parse('("foo", 42, )');
}).throwException();
});
});
describe('#parseBinaryExpression_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parseBinaryExpression_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('works with multiplicitave operators', function() {
var expr = parse('4 * 1e4');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate()).to.be(40000);
expect(parse('10/3').evaluate()).to.be(10 / 3);
});
it('works with additive operators', function() {
var expr = parse('4 +1e4');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate()).to.be(10004);
expect(parse('10-3').evaluate()).to.be(7);
});
it('works with relational operators', function() {
var expr = parse('4 < 1e4');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate()).to.be(true);
expect(parse('10<3').evaluate()).to.be(false);
expect(parse('10 <= "10"').evaluate()).to.be(true);
expect(parse('10 > "10"').evaluate()).to.be(false);
expect(parse('10 >= 9').evaluate()).to.be(true);
});
it('works with equality operators', function() {
var expr = parse('4 == 1e4');
expect(expr).to.be.a(ol.expr.Comparison);
expect(expr.evaluate()).to.be(false);
expect(parse('10!=3').evaluate()).to.be(true);
expect(parse('10 == "10"').evaluate()).to.be(true);
expect(parse('10 === "10"').evaluate()).to.be(false);
expect(parse('10 !== "10"').evaluate()).to.be(true);
});
it('works with binary logical operators', function() {
var expr = parse('true && false');
expect(expr).to.be.a(ol.expr.Logical);
expect(expr.evaluate()).to.be(false);
expect(parse('false||true').evaluate()).to.be(true);
expect(parse('false || false').evaluate()).to.be(false);
expect(parse('true &&true').evaluate()).to.be(true);
});
it('throws for invalid binary expression', function() {
expect(function() {
parse('4 * / 2');
}).throwException();
expect(function() {
parse('4 < / 2');
}).throwException();
expect(function() {
parse('4 * && 2');
}).throwException();
});
});
describe('#parseGroupExpression_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parseGroupExpression_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('parses grouped expressions', function() {
var expr = parse('(3 * (foo + 2))');
expect(expr).to.be.a(ol.expr.Math);
expect(expr.evaluate({foo: 3})).to.be(15);
});
});
describe('#parseLeftHandSideExpression_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parseLeftHandSideExpression_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('parses member expressions', function() {
var expr = parse('foo.bar.bam');
expect(expr).to.be.a(ol.expr.Member);
});
it('throws on invalid member expression', function() {
expect(function() {
parse('foo.4');
}).throwException();
});
it('parses call expressions', function() {
var expr = parse('foo(bar)');
expect(expr).to.be.a(ol.expr.Call);
var fns = {
foo: function(arg) {
expect(arguments).length(1);
expect(arg).to.be('chicken');
return 'got ' + arg;
}
};
var scope = {
bar: 'chicken'
};
expect(expr.evaluate(scope, fns)).to.be('got chicken');
});
it('throws on invalid call expression', function() {
expect(function() {
parse('foo(*)');
}).throwException();
});
});
describe('#parsePrimaryExpression_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parsePrimaryExpression_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('parses string literal', function() {
var expr = parse('"foo"');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be('foo');
});
it('parses numeric literal', function() {
var expr = parse('.42e2');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(42);
});
it('parses boolean literal', function() {
var expr = parse('.42e2');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(42);
});
it('parses null literal', function() {
var expr = parse('null');
expect(expr).to.be.a(ol.expr.Literal);
expect(expr.evaluate()).to.be(null);
});
});
describe('#parseUnaryExpression_()', function() {
function parse(source) {
var lexer = new ol.expr.Lexer(source);
var parser = new ol.expr.Parser();
var expr = parser.parseUnaryExpression_(lexer);
expect(lexer.peek().type).to.be(ol.expr.TokenType.EOF);
return expr;
}
it('parses logical not', function() {
var expr = parse('!foo');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate({foo: true})).to.be(false);
});
it('works with string literal', function() {
var expr = parse('!"foo"');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate()).to.be(false);
});
it('works with empty string', function() {
var expr = parse('!""');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate()).to.be(true);
});
it('works with null', function() {
var expr = parse('!null');
expect(expr).to.be.a(ol.expr.Not);
expect(expr.evaluate()).to.be(true);
});
});
});
goog.require('ol.expr.Expression');
goog.require('ol.expr.Call');
goog.require('ol.expr.Comparison');
goog.require('ol.expr.Lexer');
goog.require('ol.expr.Literal');
goog.require('ol.expr.Logical');
goog.require('ol.expr.Math');
goog.require('ol.expr.Member');
goog.require('ol.expr.Not');
goog.require('ol.expr.Parser');
goog.require('ol.expr.TokenType');

78
test/spec/ol/expression.test.js
View File

@@ -1,78 +0,0 @@
goog.provide('ol.test.Expression');
describe('ol.Expression', function() {
describe('constructor', function() {
it('creates an expression', function() {
var exp = new ol.Expression('foo');
expect(exp).to.be.a(ol.Expression);
});
});
describe('#evaluate()', function() {
it('evaluates and returns the result', function() {
// test cases here with unique values only (lack of messages in expect)
var cases = [{
source: '42', result: 42
}, {
source: '10 + 10', result: 20
}, {
source: '"a" + "b"', result: 'ab'
}, {
source: 'Math.floor(Math.PI)', result: 3
}, {
source: 'ol', result: ol
}, {
source: 'this', result: goog.global
}];
var c, exp;
for (var i = 0, ii = cases.length; i < ii; ++i) {
c = cases[i];
exp = new ol.Expression(c.source);
expect(exp.evaluate()).to.be(c.result);
}
});
it('accepts an optional this argument', function() {
function Thing() {
this.works = true;
};
var exp = new ol.Expression('this.works ? "yes" : "no"');
expect(exp.evaluate(new Thing())).to.be('yes');
expect(exp.evaluate({})).to.be('no');
});
it('accepts an optional scope argument', function() {
var exp;
var scope = {
greeting: 'hello world',
punctuation: '!',
pick: function(array, index) {
return array[index];
}
};
// access two members in the scope
exp = new ol.Expression('greeting + punctuation');
expect(exp.evaluate({}, scope)).to.be('hello world!');
// call a function in the scope
exp = new ol.Expression(
'pick([10, 42, "chicken"], 2) + Math.floor(Math.PI)');
expect(exp.evaluate({}, scope)).to.be('chicken3');
});
it('throws on error', function() {
var exp = new ol.Expression('@*)$(&');
expect(function() {exp.evaluate()}).to.throwException();
});
});
});
goog.require('ol.Expression');

36
test/spec/ol/filter/extentfilter.test.js
View File

@@ -1,36 +0,0 @@
goog.provide('ol.test.filter.Extent');
describe('ol.filter.Extent', function() {
var extent, filter;
beforeEach(function() {
extent = [0, 45, 0, 90];
filter = new ol.filter.Extent(extent);
});
describe('#getExtent()', function() {
it('returns the configured extent', function() {
expect(filter.getExtent()).to.be(extent);
});
});
describe('#evaluate()', function() {
it('returns true if a feature intersects, false if not', function() {
expect(filter.applies(new ol.Feature({g: new ol.geom.Point([44, 89])})))
.to.be(true);
expect(filter.applies(new ol.Feature({g: new ol.geom.Point([46, 91])})))
.to.be(false);
});
});
});
goog.require('ol.Feature');
goog.require('ol.filter.Extent');
goog.require('ol.geom.Point');

51
test/spec/ol/filter/geometryfilter.test.js
View File

@@ -1,51 +0,0 @@
goog.provide('ol.test.filter.Geometry');
describe('ol.filter.Geometry', function() {
describe('constructor', function() {
it('creates a new filter', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.POINT);
expect(filter).to.be.a(ol.filter.Geometry);
});
});
describe('#getType()', function() {
it('works for point', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.POINT);
expect(filter.getType()).to.be(ol.filter.GeometryType.POINT);
});
it('works for linestring', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.LINESTRING);
expect(filter.getType()).to.be(ol.filter.GeometryType.LINESTRING);
});
it('works for polygon', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.POLYGON);
expect(filter.getType()).to.be(ol.filter.GeometryType.POLYGON);
});
it('works for multi-point', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.MULTIPOINT);
expect(filter.getType()).to.be(ol.filter.GeometryType.MULTIPOINT);
});
it('works for multi-linestring', function() {
var filter = new ol.filter.Geometry(
ol.filter.GeometryType.MULTILINESTRING);
expect(filter.getType()).to.be(ol.filter.GeometryType.MULTILINESTRING);
});
it('works for multi-polygon', function() {
var filter = new ol.filter.Geometry(ol.filter.GeometryType.MULTIPOLYGON);
expect(filter.getType()).to.be(ol.filter.GeometryType.MULTIPOLYGON);
});
});
});
goog.require('ol.filter.Geometry');
goog.require('ol.filter.GeometryType');

144
test/spec/ol/filter/logicalfilter.test.js
View File

@@ -1,144 +0,0 @@
goog.provide('ol.test.filter.Logical');
describe('ol.filter.Logical', function() {
var OR = ol.filter.LogicalOperator.OR;
var AND = ol.filter.LogicalOperator.AND;
var NOT = ol.filter.LogicalOperator.NOT;
var include = new ol.filter.Filter(function() {return true;});
var exclude = new ol.filter.Filter(function() {return false;});
var apple = new ol.Feature({});
var orange = new ol.Feature({});
var duck = new ol.Feature({});
var isApple = new ol.filter.Filter(function(feature) {
return feature === apple;
});
var isOrange = new ol.filter.Filter(function(feature) {
return feature === orange;
});
var isDuck = new ol.filter.Filter(function(feature) {
return feature === duck;
});
describe('constructor', function() {
it('creates a new filter', function() {
var filter = new ol.filter.Logical([include, exclude], OR);
expect(filter).to.be.a(ol.filter.Logical);
});
});
describe('#operator', function() {
it('can be OR', function() {
var filter = new ol.filter.Logical([include, exclude], OR);
expect(filter.operator).to.be(OR);
});
it('can be AND', function() {
var filter = new ol.filter.Logical([include, exclude], AND);
expect(filter.operator).to.be(AND);
});
it('can be NOT', function() {
var filter = new ol.filter.Logical([include], NOT);
expect(filter.operator).to.be(NOT);
});
});
describe('#applies', function() {
it('works for OR', function() {
var isFruit = new ol.filter.Logical([isApple, isOrange], OR);
expect(isApple.applies(apple)).to.be(true);
expect(isOrange.applies(apple)).to.be(false);
expect(isFruit.applies(apple)).to.be(true);
expect(isApple.applies(duck)).to.be(false);
expect(isOrange.applies(duck)).to.be(false);
expect(isFruit.applies(duck)).to.be(false);
});
it('works for AND', function() {
expect(include.applies(apple)).to.be(true);
expect(isApple.applies(apple)).to.be(true);
expect(isDuck.applies(apple)).to.be(false);
var pass = new ol.filter.Logical([include, isApple], AND);
expect(pass.applies(apple)).to.be(true);
var fail = new ol.filter.Logical([isApple, isDuck], AND);
expect(fail.applies(apple)).to.be(false);
});
it('works for NOT', function() {
expect(isApple.applies(apple)).to.be(true);
expect(isDuck.applies(apple)).to.be(false);
expect(isDuck.applies(duck)).to.be(true);
expect(isDuck.applies(apple)).to.be(false);
var notApple = new ol.filter.Logical([isApple], NOT);
expect(notApple.applies(apple)).to.be(false);
expect(notApple.applies(duck)).to.be(true);
var notDuck = new ol.filter.Logical([isDuck], NOT);
expect(notDuck.applies(apple)).to.be(true);
expect(notDuck.applies(duck)).to.be(false);
});
});
});
describe('ol.filter.and', function() {
it('creates the a logical AND filter', function() {
var a = new ol.filter.Filter();
var b = new ol.filter.Filter();
var c = new ol.filter.Filter();
var and = ol.filter.and(a, b, c);
expect(and).to.be.a(ol.filter.Logical);
expect(and.operator).to.be(ol.filter.LogicalOperator.AND);
var filters = and.getFilters();
expect(filters[0]).to.be(a);
expect(filters[1]).to.be(b);
expect(filters[2]).to.be(c);
});
});
describe('ol.filter.not', function() {
it('creates the logical compliment of another filter', function() {
var include = new ol.filter.Filter(function() {return true;});
var notInclude = ol.filter.not(include);
expect(notInclude).to.be.a(ol.filter.Logical);
expect(notInclude.applies()).to.be(false);
var exclude = new ol.filter.Filter(function() {return false;});
var notExclude = ol.filter.not(exclude);
expect(notExclude).to.be.a(ol.filter.Logical);
expect(notExclude.applies()).to.be(true);
});
});
describe('ol.filter.or', function() {
it('creates the a logical OR filter', function() {
var a = new ol.filter.Filter();
var b = new ol.filter.Filter();
var c = new ol.filter.Filter();
var and = ol.filter.or(a, b, c);
expect(and).to.be.a(ol.filter.Logical);
expect(and.operator).to.be(ol.filter.LogicalOperator.OR);
var filters = and.getFilters();
expect(filters[0]).to.be(a);
expect(filters[1]).to.be(b);
expect(filters[2]).to.be(c);
});
});
goog.require('ol.Feature');
goog.require('ol.filter.Filter');
goog.require('ol.filter.Logical');
goog.require('ol.filter.LogicalOperator');
goog.require('ol.filter.and');
goog.require('ol.filter.not');
goog.require('ol.filter.or');

51
test/spec/ol/layer/vectorlayer.test.js
View File

@@ -50,46 +50,46 @@ describe('ol.layer.Vector', function() {
layer.addFeatures(features);
});
var geomFilter = new ol.filter.Geometry(ol.geom.GeometryType.LINESTRING);
var extentFilter = new ol.filter.Extent([16, 16.3, 48, 48.3]);
var geomFilter = ol.expr.parse('geometryType("linestring")');
var extentFilter = ol.expr.parse('extent(16, 16.3, 48, 48.3)');
it('can filter by geometry type using its GeometryType index', function() {
sinon.spy(geomFilter, 'applies');
sinon.spy(geomFilter, 'evaluate');
var lineStrings = layer.getFeatures(geomFilter);
expect(geomFilter.applies).to.not.be.called();
expect(geomFilter.evaluate).to.not.be.called();
expect(lineStrings.length).to.eql(4);
expect(lineStrings).to.contain(features[4]);
});
it('can filter by extent using its RTree', function() {
sinon.spy(extentFilter, 'applies');
sinon.spy(extentFilter, 'evaluate');
var subset = layer.getFeatures(extentFilter);
expect(extentFilter.applies).to.not.be.called();
expect(extentFilter.evaluate).to.not.be.called();
expect(subset.length).to.eql(4);
expect(subset).not.to.contain(features[7]);
});
it('can filter by extent and geometry type using its index', function() {
var filter1 = new ol.filter.Logical([geomFilter, extentFilter],
ol.filter.LogicalOperator.AND);
var filter2 = new ol.filter.Logical([extentFilter, geomFilter],
ol.filter.LogicalOperator.AND);
sinon.spy(filter1, 'applies');
sinon.spy(filter2, 'applies');
var filter1 = new ol.expr.Logical(
ol.expr.LogicalOp.AND, geomFilter, extentFilter);
var filter2 = new ol.expr.Logical(
ol.expr.LogicalOp.AND, extentFilter, geomFilter);
sinon.spy(filter1, 'evaluate');
sinon.spy(filter2, 'evaluate');
var subset1 = layer.getFeatures(filter1);
var subset2 = layer.getFeatures(filter2);
expect(filter1.applies).to.not.be.called();
expect(filter2.applies).to.not.be.called();
expect(filter1.evaluate).to.not.be.called();
expect(filter2.evaluate).to.not.be.called();
expect(subset1.length).to.eql(0);
expect(subset2.length).to.eql(0);
});
it('can handle query using the filter\'s applies function', function() {
var filter = new ol.filter.Logical([geomFilter, extentFilter],
ol.filter.LogicalOperator.OR);
sinon.spy(filter, 'applies');
it('can handle query using the filter\'s evaluate function', function() {
var filter = new ol.expr.Logical(
ol.expr.LogicalOp.OR, geomFilter, extentFilter);
sinon.spy(filter, 'evaluate');
var subset = layer.getFeatures(filter);
expect(filter.applies).to.be.called();
expect(filter.evaluate).to.be.called();
expect(subset.length).to.eql(8);
});
@@ -107,7 +107,7 @@ describe('ol.layer.Vector', function() {
symbolizers: [
new ol.style.Line({
strokeWidth: 2,
strokeColor: new ol.Expression('colorProperty'),
strokeColor: ol.expr.parse('colorProperty'),
opacity: 1
})
]
@@ -144,7 +144,7 @@ describe('ol.layer.Vector', function() {
it('groups equal symbolizers also when defined on features', function() {
var symbolizer = new ol.style.Line({
strokeWidth: 3,
strokeColor: new ol.Expression('colorProperty'),
strokeColor: ol.expr.parse('colorProperty'),
opacity: 1
});
var anotherSymbolizer = new ol.style.Line({
@@ -177,13 +177,10 @@ describe('ol.layer.Vector', function() {
});
goog.require('goog.dispose');
goog.require('ol.Expression');
goog.require('ol.Feature');
goog.require('ol.filter.Extent');
goog.require('ol.filter.Geometry');
goog.require('ol.filter.Logical');
goog.require('ol.filter.LogicalOperator');
goog.require('ol.geom.GeometryType');
goog.require('ol.expr');
goog.require('ol.expr.Logical');
goog.require('ol.expr.LogicalOp');
goog.require('ol.geom.LineString');
goog.require('ol.geom.Point');
goog.require('ol.proj');

10
test/spec/ol/style/line.test.js
View File

@@ -42,8 +42,8 @@ describe('ol.style.Line', function() {
it('accepts expressions', function() {
var symbolizer = new ol.style.Line({
opacity: new ol.Expression('value / 100'),
strokeWidth: ol.Expression('widthAttr')
opacity: ol.expr.parse('value / 100'),
strokeWidth: ol.expr.parse('widthAttr')
});
expect(symbolizer).to.be.a(ol.style.Line);
});
@@ -54,8 +54,8 @@ describe('ol.style.Line', function() {
it('evaluates expressions with the given feature', function() {
var symbolizer = new ol.style.Line({
opacity: new ol.Expression('value / 100'),
strokeWidth: ol.Expression('widthAttr')
opacity: ol.expr.parse('value / 100'),
strokeWidth: ol.expr.parse('widthAttr')
});
var feature = new ol.Feature({
@@ -73,7 +73,7 @@ describe('ol.style.Line', function() {
});
goog.require('ol.Expression');
goog.require('ol.Feature');
goog.require('ol.expr');
goog.require('ol.style.Line');
goog.require('ol.style.LineLiteral');

10
test/spec/ol/style/polygon.test.js
View File

@@ -45,8 +45,8 @@ describe('ol.style.Polygon', function() {
it('accepts expressions', function() {
var symbolizer = new ol.style.Polygon({
opacity: new ol.Expression('value / 100'),
fillColor: new ol.Expression('fillAttr')
opacity: ol.expr.parse('value / 100'),
fillColor: ol.expr.parse('fillAttr')
});
expect(symbolizer).to.be.a(ol.style.Polygon);
});
@@ -57,8 +57,8 @@ describe('ol.style.Polygon', function() {
it('evaluates expressions with the given feature', function() {
var symbolizer = new ol.style.Polygon({
opacity: new ol.Expression('value / 100'),
fillColor: new ol.Expression('fillAttr')
opacity: ol.expr.parse('value / 100'),
fillColor: ol.expr.parse('fillAttr')
});
var feature = new ol.Feature({
@@ -89,7 +89,7 @@ describe('ol.style.Polygon', function() {
});
goog.require('ol.Expression');
goog.require('ol.Feature');
goog.require('ol.expr');
goog.require('ol.style.Polygon');
goog.require('ol.style.PolygonLiteral');

6
test/spec/ol/style/rule.test.js
View File

@@ -13,14 +13,14 @@ describe('ol.style.Rule', function() {
it('returns false when the rule does not apply', function() {
rule = new ol.style.Rule({
filter: new ol.filter.Filter(function() { return false; })
filter: new ol.expr.Literal(false)
});
expect(rule.applies(feature)).to.be(false);
});
it('returns true when the rule applies', function() {
rule = new ol.style.Rule({
filter: new ol.filter.Filter(function() { return true; })
filter: new ol.expr.Literal(true)
});
expect(rule.applies(feature)).to.be(true);
});
@@ -29,5 +29,5 @@ describe('ol.style.Rule', function() {
});
goog.require('ol.Feature');
goog.require('ol.filter.Filter');
goog.require('ol.expr.Literal');
goog.require('ol.style.Rule');

14
test/spec/ol/style/shape.test.js
View File

@@ -51,8 +51,8 @@ describe('ol.style.Shape', function() {
it('accepts expressions', function() {
var symbolizer = new ol.style.Shape({
size: new ol.Expression('sizeAttr'),
strokeColor: new ol.Expression('color')
size: ol.expr.parse('sizeAttr'),
strokeColor: ol.expr.parse('color')
});
expect(symbolizer).to.be.a(ol.style.Shape);
});
@@ -63,8 +63,8 @@ describe('ol.style.Shape', function() {
it('evaluates expressions with the given feature', function() {
var symbolizer = new ol.style.Shape({
size: new ol.Expression('sizeAttr'),
opacity: new ol.Expression('opacityAttr'),
size: ol.expr.parse('sizeAttr'),
opacity: ol.expr.parse('opacityAttr'),
fillColor: '#BADA55'
});
@@ -99,8 +99,8 @@ describe('ol.style.Shape', function() {
it('applies default type if none provided', function() {
var symbolizer = new ol.style.Shape({
size: new ol.Expression('sizeAttr'),
opacity: new ol.Expression('opacityAttr'),
size: ol.expr.parse('sizeAttr'),
opacity: ol.expr.parse('opacityAttr'),
fillColor: '#BADA55'
});
@@ -119,8 +119,8 @@ describe('ol.style.Shape', function() {
});
goog.require('ol.Expression');
goog.require('ol.Feature');
goog.require('ol.expr');
goog.require('ol.style.Shape');
goog.require('ol.style.ShapeLiteral');
goog.require('ol.style.ShapeType');

5
test/spec/ol/style/style.test.js
View File

@@ -9,9 +9,7 @@ describe('ol.style.Style', function() {
var style = new ol.style.Style({
rules: [
new ol.style.Rule({
filter: new ol.filter.Filter(function(feature) {
return feature.get('foo') == 'bar';
}),
filter: 'foo == "bar"',
symbolizers: [
new ol.style.Shape({
size: 4,
@@ -66,7 +64,6 @@ goog.require('ol.Feature');
goog.require('ol.geom.LineString');
goog.require('ol.geom.Point');
goog.require('ol.geom.Polygon');
goog.require('ol.filter.Filter');
goog.require('ol.style.Rule');
goog.require('ol.style.Shape');
goog.require('ol.style.ShapeLiteral');