'use strict';

var helpers = require('../helpers/index');
var Scale = require('../core/core.scale');
var scaleService = require('../core/core.scaleService');
var Ticks = require('../core/core.ticks');

/**
 * Generate a set of logarithmic ticks
 * @param generationOptions the options used to generate the ticks
 * @param dataRange the range of the data
 * @returns {Array<Number>} array of tick values
 */
function generateTicks(generationOptions, dataRange) {
	var ticks = [];
	var valueOrDefault = helpers.valueOrDefault;

	// Figure out what the max number of ticks we can support it is based on the size of
	// the axis area. For now, we say that the minimum tick spacing in pixels must be 50
	// We also limit the maximum number of ticks to 11 which gives a nice 10 squares on
	// the graph
	var tickVal = valueOrDefault(generationOptions.min, Math.pow(10, Math.floor(helpers.log10(dataRange.min))));

	var endExp = Math.floor(helpers.log10(dataRange.max));
	var endSignificand = Math.ceil(dataRange.max / Math.pow(10, endExp));
	var exp, significand;

	if (tickVal === 0) {
		exp = Math.floor(helpers.log10(dataRange.minNotZero));
		significand = Math.floor(dataRange.minNotZero / Math.pow(10, exp));

		ticks.push(tickVal);
		tickVal = significand * Math.pow(10, exp);
	} else {
		exp = Math.floor(helpers.log10(tickVal));
		significand = Math.floor(tickVal / Math.pow(10, exp));
	}
	var precision = exp < 0 ? Math.pow(10, Math.abs(exp)) : 1;

	do {
		ticks.push(tickVal);

		++significand;
		if (significand === 10) {
			significand = 1;
			++exp;
			precision = exp >= 0 ? 1 : precision;
		}

		tickVal = Math.round(significand * Math.pow(10, exp) * precision) / precision;
	} while (exp < endExp || (exp === endExp && significand < endSignificand));

	var lastTick = valueOrDefault(generationOptions.max, tickVal);
	ticks.push(lastTick);

	return ticks;
}


module.exports = function(Chart) {

	var defaultConfig = {
		position: 'left',

		// label settings
		ticks: {
			callback: Ticks.formatters.logarithmic
		}
	};

	var LogarithmicScale = Scale.extend({
		determineDataLimits: function() {
			var me = this;
			var opts = me.options;
			var chart = me.chart;
			var data = chart.data;
			var datasets = data.datasets;
			var isHorizontal = me.isHorizontal();
			function IDMatches(meta) {
				return isHorizontal ? meta.xAxisID === me.id : meta.yAxisID === me.id;
			}

			// Calculate Range
			me.min = null;
			me.max = null;
			me.minNotZero = null;

			var hasStacks = opts.stacked;
			if (hasStacks === undefined) {
				helpers.each(datasets, function(dataset, datasetIndex) {
					if (hasStacks) {
						return;
					}

					var meta = chart.getDatasetMeta(datasetIndex);
					if (chart.isDatasetVisible(datasetIndex) && IDMatches(meta) &&
						meta.stack !== undefined) {
						hasStacks = true;
					}
				});
			}

			if (opts.stacked || hasStacks) {
				var valuesPerStack = {};

				helpers.each(datasets, function(dataset, datasetIndex) {
					var meta = chart.getDatasetMeta(datasetIndex);
					var key = [
						meta.type,
						// we have a separate stack for stack=undefined datasets when the opts.stacked is undefined
						((opts.stacked === undefined && meta.stack === undefined) ? datasetIndex : ''),
						meta.stack
					].join('.');

					if (chart.isDatasetVisible(datasetIndex) && IDMatches(meta)) {
						if (valuesPerStack[key] === undefined) {
							valuesPerStack[key] = [];
						}

						helpers.each(dataset.data, function(rawValue, index) {
							var values = valuesPerStack[key];
							var value = +me.getRightValue(rawValue);
							// invalid, hidden and negative values are ignored
							if (isNaN(value) || meta.data[index].hidden || value < 0) {
								return;
							}
							values[index] = values[index] || 0;
							values[index] += value;
						});
					}
				});

				helpers.each(valuesPerStack, function(valuesForType) {
					if (valuesForType.length > 0) {
						var minVal = helpers.min(valuesForType);
						var maxVal = helpers.max(valuesForType);
						me.min = me.min === null ? minVal : Math.min(me.min, minVal);
						me.max = me.max === null ? maxVal : Math.max(me.max, maxVal);
					}
				});

			} else {
				helpers.each(datasets, function(dataset, datasetIndex) {
					var meta = chart.getDatasetMeta(datasetIndex);
					if (chart.isDatasetVisible(datasetIndex) && IDMatches(meta)) {
						helpers.each(dataset.data, function(rawValue, index) {
							var value = +me.getRightValue(rawValue);
							// invalid, hidden and negative values are ignored
							if (isNaN(value) || meta.data[index].hidden || value < 0) {
								return;
							}

							if (me.min === null) {
								me.min = value;
							} else if (value < me.min) {
								me.min = value;
							}

							if (me.max === null) {
								me.max = value;
							} else if (value > me.max) {
								me.max = value;
							}

							if (value !== 0 && (me.minNotZero === null || value < me.minNotZero)) {
								me.minNotZero = value;
							}
						});
					}
				});
			}

			// Common base implementation to handle ticks.min, ticks.max
			this.handleTickRangeOptions();
		},
		handleTickRangeOptions: function() {
			var me = this;
			var opts = me.options;
			var tickOpts = opts.ticks;
			var valueOrDefault = helpers.valueOrDefault;
			var DEFAULT_MIN = 1;
			var DEFAULT_MAX = 10;

			me.min = valueOrDefault(tickOpts.min, me.min);
			me.max = valueOrDefault(tickOpts.max, me.max);

			if (me.min === me.max) {
				if (me.min !== 0 && me.min !== null) {
					me.min = Math.pow(10, Math.floor(helpers.log10(me.min)) - 1);
					me.max = Math.pow(10, Math.floor(helpers.log10(me.max)) + 1);
				} else {
					me.min = DEFAULT_MIN;
					me.max = DEFAULT_MAX;
				}
			}
			if (me.min === null) {
				me.min = Math.pow(10, Math.floor(helpers.log10(me.max)) - 1);
			}
			if (me.max === null) {
				me.max = me.min !== 0
					? Math.pow(10, Math.floor(helpers.log10(me.min)) + 1)
					: DEFAULT_MAX;
			}
			if (me.minNotZero === null) {
				if (me.min > 0) {
					me.minNotZero = me.min;
				} else if (me.max < 1) {
					me.minNotZero = Math.pow(10, Math.floor(helpers.log10(me.max)));
				} else {
					me.minNotZero = DEFAULT_MIN;
				}
			}
		},
		buildTicks: function() {
			var me = this;
			var opts = me.options;
			var tickOpts = opts.ticks;
			var reverse = !me.isHorizontal();

			var generationOptions = {
				min: tickOpts.min,
				max: tickOpts.max
			};
			var ticks = me.ticks = generateTicks(generationOptions, me);

			// At this point, we need to update our max and min given the tick values since we have expanded the
			// range of the scale
			me.max = helpers.max(ticks);
			me.min = helpers.min(ticks);

			if (tickOpts.reverse) {
				reverse = !reverse;
				me.start = me.max;
				me.end = me.min;
			} else {
				me.start = me.min;
				me.end = me.max;
			}
			if (reverse) {
				ticks.reverse();
			}
		},
		convertTicksToLabels: function() {
			this.tickValues = this.ticks.slice();

			Scale.prototype.convertTicksToLabels.call(this);
		},
		// Get the correct tooltip label
		getLabelForIndex: function(index, datasetIndex) {
			return +this.getRightValue(this.chart.data.datasets[datasetIndex].data[index]);
		},
		getPixelForTick: function(index) {
			return this.getPixelForValue(this.tickValues[index]);
		},
		/**
		 * Returns the value of the first tick.
		 * @param {Number} value - The minimum not zero value.
		 * @return {Number} The first tick value.
		 * @private
		 */
		_getFirstTickValue: function(value) {
			var exp = Math.floor(helpers.log10(value));
			var significand = Math.floor(value / Math.pow(10, exp));

			return significand * Math.pow(10, exp);
		},
		getPixelForValue: function(value) {
			var me = this;
			var reverse = me.options.ticks.reverse;
			var log10 = helpers.log10;
			var firstTickValue = me._getFirstTickValue(me.minNotZero);
			var offset = 0;
			var innerDimension, pixel, start, end, sign;

			value = +me.getRightValue(value);
			if (reverse) {
				start = me.end;
				end = me.start;
				sign = -1;
			} else {
				start = me.start;
				end = me.end;
				sign = 1;
			}
			if (me.isHorizontal()) {
				innerDimension = me.width;
				pixel = reverse ? me.right : me.left;
			} else {
				innerDimension = me.height;
				sign *= -1; // invert, since the upper-left corner of the canvas is at pixel (0, 0)
				pixel = reverse ? me.top : me.bottom;
			}
			if (value !== start) {
				if (start === 0) { // include zero tick
					offset = helpers.getValueOrDefault(
						me.options.ticks.fontSize,
						Chart.defaults.global.defaultFontSize
					);
					innerDimension -= offset;
					start = firstTickValue;
				}
				if (value !== 0) {
					offset += innerDimension / (log10(end) - log10(start)) * (log10(value) - log10(start));
				}
				pixel += sign * offset;
			}
			return pixel;
		},
		getValueForPixel: function(pixel) {
			var me = this;
			var reverse = me.options.ticks.reverse;
			var log10 = helpers.log10;
			var firstTickValue = me._getFirstTickValue(me.minNotZero);
			var innerDimension, start, end, value;

			if (reverse) {
				start = me.end;
				end = me.start;
			} else {
				start = me.start;
				end = me.end;
			}
			if (me.isHorizontal()) {
				innerDimension = me.width;
				value = reverse ? me.right - pixel : pixel - me.left;
			} else {
				innerDimension = me.height;
				value = reverse ? pixel - me.top : me.bottom - pixel;
			}
			if (value !== start) {
				if (start === 0) { // include zero tick
					var offset = helpers.getValueOrDefault(
						me.options.ticks.fontSize,
						Chart.defaults.global.defaultFontSize
					);
					value -= offset;
					innerDimension -= offset;
					start = firstTickValue;
				}
				value *= log10(end) - log10(start);
				value /= innerDimension;
				value = Math.pow(10, log10(start) + value);
			}
			return value;
		}
	});

	scaleService.registerScaleType('logarithmic', LogarithmicScale, defaultConfig);
};