def chart(request): data = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/different-plot-type-for-each-variable-measure-data.json').text schema = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/different-plot-type-for-each-variable-measure-schema.json').text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute("caption", """{ text: 'Sales Performance' }""") timeSeries.AddAttribute("yAxis", """[{ plot: { value: 'Sale Amount', type: 'area' }, title: 'Sale Amount', format: { prefix: '$' } }, { plot: { value: 'Units Sold', type: 'column' }, title: 'Units Sold' }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', {'output' : fcChart.render(), 'chartTitle': "Different plot type for each variable (measure)"})
def chart(request): data = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/line-chart-with-time-axis-data.json').text schema = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/line-chart-with-time-axis-schema.json').text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute("caption", """{ text: 'Sales Analysis' }""") timeSeries.AddAttribute("subcaption", """{ text: 'Grocery' }""") timeSeries.AddAttribute("yAxis", """[{ plot: { value: 'Grocery Sales Value', type: 'line' }, format: { prefix: '$' }, title: 'Sale Value' }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', {'output' : fcChart.render(), 'chartTitle': "Line chart with time axis"})
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/column-line-combination-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/column-line-combination-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute( "caption", """{ text: 'Web visits & downloads' }""") timeSeries.AddAttribute( "subcaption", """{ text: 'since 2015' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: [{ value: 'Downloads', type: 'column' }, { value: 'Web Visits', type: 'line' }] }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render( request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Column and line combination on time axis" })
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/candlestick-chart-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/candlestick-chart-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute( "caption", """{ text: 'Apple Inc. Stock Price' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: { value: { open: 'Open', high: 'High', low: 'Low', close: 'Close' }, type: 'candlestick' }, format: { prefix: '$' }, title: 'Stock Value' }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Interactive candlestick chart" })
def chart(request): data = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/plotting-two-variable-measures-data.json').text schema = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/plotting-two-variable-measures-schema.json').text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute("caption", """{ text: 'Cariaco Basin Sampling' }""") timeSeries.AddAttribute("subcaption", """{ text: 'Analysis of O₂ Concentration and Surface Temperature' }""") timeSeries.AddAttribute("yAxis", """[{ plot: [{ value: 'O2 concentration', connectNullData: true }], min: '3', max: '6', title: 'O₂ Concentration (mg/L)' }, { plot: [{ value: 'Surface Temperature', connectNullData: true }], min: '18', max: '30', title: 'Surface Temperature (°C)' }]"""); # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', {'output' : fcChart.render(), 'chartTitle': "Plotting two variables (measures)"})
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/column-chart-with-time-axis-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/column-chart-with-time-axis-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute("chart", """{ showLegend: 0 }""") timeSeries.AddAttribute( "caption", """{ text: 'Daily Visitors Count of a Website' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: { value: 'Daily Visitors', type: 'column' }, title: 'Daily Visitors (in thousand)' }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Column chart with time axis" })
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/adding-a-reference-line-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/adding-a-reference-line-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute( "caption", """{ text: 'Temperature readings in Italy' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: 'Temperature', title: 'Temperature', format:{ suffix: '°C', }, referenceLine: [{ label: 'Controlled Temperature', value: '10' }] }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Adding a reference line" })
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/single-event-overlay-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/single-event-overlay-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute( "caption", """{ text: 'Interest Rate Analysis' }""") timeSeries.AddAttribute( "subCaption", """{ text: 'Federal Reserve (USA)' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: 'Interest Rate', format:{ suffix: '%' }, title: 'Interest Rate' }]""") timeSeries.AddAttribute( "xAxis", """{ plot: 'Time', timemarker: [{ start: 'Mar-1980', label: 'US inflation peaked at 14.8%.', timeFormat: ' %b -%Y', style: { marker: { fill: '#D0D6F4' } } }, { start: 'May-1981', label: 'To control inflation, the Fed started {br} raising interest rates to over {br} 20%.', timeFormat: '%b-%Y' }, { start: 'Jun-1983', label: 'By proactive actions of Mr.Volcker, {br} the inflation falls to 2.4% {br} from the peak of over 14% {br} just three years ago.', timeFormat: '%b-%Y', style: { marker: { fill: '#D0D6F4' } } }, { start: 'Oct-1987', label: 'The Dow Jones Industrial Average lost {br} about 30% of it’s value.', timeFormat: '%b-%Y', style: { marker: { fill: '#FBEFCC' } } }, { start: 'Jan-1989', label: 'George H.W. Bush becomes {br} the 41st president of US!', timeFormat: '%b-%Y' }, { start: 'Aug-1990', label: 'The oil prices spiked to $35 {br} per barrel from $15 per barrel {br} because of the Gulf War.', timeFormat: '%b-%Y' }, { start: 'Dec-1996', label: 'Alan Greenspan warns of the dangers {br} of \"irrational exuberance\" in financial markets, {br} an admonition that goes unheeded', timeFormat: '%b-%Y' }, { start: 'Sep-2008', label: 'Lehman Brothers collapsed!', timeFormat: '%b-%Y' },{ start: 'Mar-2009', label: 'The net worth of US households {br} stood at a trough of $55 trillion.', timeFormat: '%b-%Y', style: { marker: { fill: '#FBEFCC' } } }, { start: 'Oct-2009', label: 'Unemployment rate peaked {br} in given times to 10%.', timeFormat: '%b-%Y' }] }""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Single event overlay" })
def chart(request): data = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/date-range-event-overlay-data.json' ).text schema = requests.get( 'https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/date-range-event-overlay-schema.json' ).text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute( "caption", """{ text: 'Interest Rate Analysis' }""") timeSeries.AddAttribute( "subCaption", """{ text: 'Federal Reserve (USA)' }""") timeSeries.AddAttribute( "yAxis", """[{ plot: 'Interest Rate', format:{ suffix: '%' }, title: 'Interest Rate' }]""") timeSeries.AddAttribute( "xAxis", """{ plot: 'Time', timemarker: [{ start: 'Jul-1981', end: 'Nov-1982', label: 'Economic downturn was triggered by {br} tight monetary policy in an effort to {br} fight mounting inflation.', timeFormat: '%b-%Y' }, { start: 'Jul-1990', end: 'Mar-1991', label: 'This eight month recession period {br} was characterized by a sluggish employment recovery, {br} most commonly referred to as a jobless recovery.', timeFormat: '%b-%Y' }, { start: 'Jun-2004', end: 'Jul-2006', label: 'The Fed after raising interest rates {br} at 17 consecutive meetings, ends its campaign {br} to slow the economy and forestall inflation.', timeFormat: '%b-%Y' }, { start: 'Dec-2007', end: 'Jun-2009', label: 'Recession caused by the worst {br} collapse of financial system in recent {br} times.', timeFormat: '%b-%Y' }] }""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-1", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', { 'output': fcChart.render(), 'chartTitle': "Date range event overlay" })
def chart(request): data = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/data/annotating-single-data-point-data.json').text schema = requests.get('https://s3.eu-central-1.amazonaws.com/fusion.store/ft/schema/annotating-single-data-point-schema.json').text fusionTable = FusionTable(schema, data) timeSeries = TimeSeries(fusionTable) timeSeries.AddAttribute("caption", """{ text: 'Interest Rate Analysis' }""") timeSeries.AddAttribute("subCaption", """{ text: 'Federal Reserve (USA)' }""") timeSeries.AddAttribute("yAxis", """[{ plot: 'Interest Rate', format:{ suffix: '%' }, title: 'Interest Rate' }]""") timeSeries.AddAttribute("dataMarker", """[{ seriesName: 'Interest Rate', time: 'Mar-1980', identifier: 'H', timeFormat: '%b-%Y', tooltext: 'As a part of credit control program, under the leadership of Paul Volcker, the Fed tightened the money supply, allowing the federal fund rates to approach 20 percent.' }, { seriesName: 'Interest Rate', time: 'Aug-1982', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'The FED eases off the monetary brakes, allowing interest rates to fall and the economy to begin a strong recovery.' }, { seriesName: 'Interest Rate', time: 'Oct-1987', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'The FED is forced to ease rate after the stock market crash.' }, { seriesName: 'Interest Rate', time: 'May-1989', identifier: 'H', timeFormat: '%b-%Y', tooltext: 'Liquidity problem forced the Fed to increase rate to nearly 10%.' }, { seriesName: 'Interest Rate', time: 'Sept-1992', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'To fight the jobless economy growth the Fed had to reduce the interest rate to 3%.' }, { seriesName: 'Interest Rate', time: 'Jun-2003', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'Struggling to revive the economy, the FED cuts it’s benchmark rate to 1%.' }, { seriesName: 'Interest Rate', time: 'Sep-2007', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'Fed started reducing the Federal Fund Rate.' }, { seriesName: 'Interest Rate', time: 'Dec-2008', identifier: 'L', timeFormat: '%b-%Y', tooltext: 'Fed reduced the interest rates to sub 0.25% to manage the menace of longest economic downturn since World War 2' }]""") # Create an object for the chart using the FusionCharts class constructor fcChart = FusionCharts("timeseries", "ex1", 700, 450, "chart-2", "json", timeSeries) # returning complete JavaScript and HTML code, which is used to generate chart in the browsers. return render(request, 'index.html', {'output' : fcChart.render(), 'chartTitle': "Annotating single data point"})