import React, { Component } from 'react'
import { ScrollView } from 'react-native'
import range from 'date-range'
import Svg,{
G,
Polyline,
Rect,
Text,
Circle
} from 'react-native-svg'
import { LocalDate } from 'js-joda'
import { bleedingDaysSortedByDate, temperatureDaysSortedByDate, getOrCreateCycleDay } from '../db'
const right = 600
const top = 10
const bottom = 350
const columnWidth = 30
const dateRow = {
height: 30,
width: right
}
const temperatureScale = {
low: 33,
high: 40
}
const cycleDaysToShow = 40
const dotRadius = 4
const curveColor = 'darkblue'
export default class CycleChart extends Component {
constructor(props) {
super(props)
this.xAxisTicks = makeXAxisTicks(cycleDaysToShow)
this.state = {
curveCoordinates: this.makeCurveCoordinates(),
bleedIconCoordinates: this.makeBleedIconCoordinates()
}
this.setStateWithNewCurveCoordinates = (function (chartComponent) {
return function () {
chartComponent.setState({
curveCoordinates: chartComponent.makeCurveCoordinates()
})
}
})(this)
this.setStateWithNewBleedIconCoordinates = (function (chartComponent) {
return function () {
chartComponent.setState({
bleedIconCoordinates: chartComponent.makeBleedIconCoordinates()
})
}
})(this)
temperatureDaysSortedByDate.addListener(this.setStateWithNewCurveCoordinates)
bleedingDaysSortedByDate.addListener(this.setStateWithNewBleedIconCoordinates)
}
componentWillUnmount() {
temperatureDaysSortedByDate.removeListener(this.setStateWithNewCurveCoordinates)
temperatureDaysSortedByDate.removeListener(this.setStateWithNewBleedIconCoordinates)
}
passDateToDayView(dateString) {
const cycleDay = getOrCreateCycleDay(dateString)
this.props.navigation.navigate('cycleDay', { cycleDay })
}
makeDayColumn(columnInfo) {
return (
{columnInfo.label.split('-')[2]}
)
}
makeColumnGrid(xAxisTicks) {
return xAxisTicks.map(this.makeDayColumn.bind(this))
}
placeTouchHandlerRectangles() {
return this.xAxisTicks.map(columnInfo => {
return (
this.passDateToDayView(columnInfo.label)}
/>
)
})
}
placeBleedingSymbolsOnColumns() {
return this.state.bleedIconCoordinates.map(x => {
return ()
})
}
makeCurveCoordinates() {
return temperatureDaysSortedByDate
.filter(cycleDayIsNotInTheFuture())
.reduce(separateIntoContinousChunks, [[]])
.map(makeCurveCoordinatesForChunk.bind(this))
}
makeBleedIconCoordinates() {
return bleedingDaysSortedByDate
.filter(cycleDayIsNotInTheFuture())
.map(day => {
const match = this.xAxisTicks.find(tick => {
return tick.label === day.date
})
return match.rightOffset + columnWidth / 2
})
}
makeTemperatureCurves() {
return this.state.curveCoordinates.map(makeCurveFromPoints)
}
componentDidMount() {
this.scrollContainer.scrollToEnd()
}
render() {
return (
{
if (scroll) this.scrollContainer = scroll
}}
horizontal={true}>
)
}
}
function makeXAxisTicks(n) {
const xAxisDates = getPreviousDays(n).map(jsDate => {
return LocalDate.of(
jsDate.getFullYear(),
jsDate.getMonth() + 1,
jsDate.getDate()
).toString()
})
return xAxisDates.map((datestring, columnIndex) => {
const rightOffset = right - (columnWidth * (columnIndex + 1))
return {
label: datestring,
rightOffset
}
})
}
function getPreviousDays(n) {
const today = new Date()
today.setHours(0); today.setMinutes(0); today.setSeconds(0); today.setMilliseconds(0)
const twoWeeksAgo = new Date(today - (range.DAY * n))
return range(twoWeeksAgo, today).reverse()
}
function normalizeToScale(temp) {
const valueRelativeToScale = (temperatureScale.high - temp) / (temperatureScale.high - temperatureScale.low)
const scaleHeight = bottom - top
return scaleHeight * valueRelativeToScale
}
function cycleDayIsNotInTheFuture() {
const today = LocalDate.now()
return function (cycleDay) {
const cycleDayLocalDate = LocalDate.parse(cycleDay.date)
return cycleDayLocalDate.isBefore(today) || cycleDayLocalDate.isEqual(today)
}
}
function separateIntoContinousChunks(curveChunks, curr) {
const lastChunk = curveChunks[curveChunks.length - 1]
const lastSeenCycleDate = lastChunk.length && lastChunk[lastChunk.length - 1]
if (!lastSeenCycleDate) {
lastChunk.push(curr)
return curveChunks
}
const lastSeenLocalDate = LocalDate.parse(lastSeenCycleDate.date)
const currLocalDate = LocalDate.parse(curr.date)
if (lastSeenLocalDate.compareTo(currLocalDate) === 1) {
lastChunk.push(curr)
} else {
curveChunks.push([curr])
}
return curveChunks
}
function makeCurveCoordinatesForChunk(chunk) {
return chunk
.map(cycleDay => {
const match = this.xAxisTicks.find(tick => tick.label === cycleDay.date)
const x = match.rightOffset + columnWidth / 2
const y = normalizeToScale(cycleDay.temperature.value)
return [x, y]
})
}
function makeCurveFromPoints(curveChunkPoints, i) {
const pointsInPolyLineFormat = curveChunkPoints
.map(xYPair => xYPair.join())
.join(' ')
return (
{ makeDots(curveChunkPoints) }
)
}
function makeDots(points) {
return points.map(([x, y], i) => )
}