Example #1
0
int main(int argc, char *argv[])
{
    // The data for the area chart
    double data[] = {30, 28, 40, 55, 75, 68, 54, 60, 50, 62, 75, 65, 75, 89, 60, 55, 53, 35, 50, 66,
        56, 48, 52, 65, 62};

    // The labels for the area chart
    double labels[] = {0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21,
        22, 23, 24};

    // Create a XYChart object of size 320 x 320 pixels
    XYChart *c = new XYChart(320, 320);

    // Swap the x and y axis to become a rotated chart
    c->swapXY();

    // Set the y axis on the top side (right + rotated = top)
    c->setYAxisOnRight();

    // Reverse the x axis so it is pointing downwards
    c->xAxis()->setReverse();

    // Set the plotarea at (50, 50) and of size 200 x 200 pixels. Enable horizontal and vertical
    // grids by setting their colors to grey (0xc0c0c0).
    c->setPlotArea(50, 50, 250, 250)->setGridColor(0xc0c0c0, 0xc0c0c0);

    // Add a line chart layer using the given data
    c->addAreaLayer(DoubleArray(data, (int)(sizeof(data) / sizeof(data[0]))), c->gradientColor(50,
        0, 300, 0, 0xffffff, 0x0000ff));

    // Set the labels on the x axis. Append "m" after the value to show the unit.
    c->xAxis()->setLabels(DoubleArray(labels, (int)(sizeof(labels) / sizeof(labels[0]))),
        "{value} m");

    // Display 1 out of 3 labels.
    c->xAxis()->setLabelStep(3);

    // Add a title to the x axis
    c->xAxis()->setTitle("Depth");

    // Add a title to the y axis
    c->yAxis()->setTitle("Carbon Dioxide Concentration (ppm)");

    // Output the chart
    c->makeChart("rotatedarea.png");

    //free up resources
    delete c;
    return 0;
}
int main(int argc, char *argv[])
{
    // The tasks for the gantt chart
    const char *labels[] = {"Market Research", "Define Specifications",
        "Overall Archiecture", "Project Planning", "Detail Design",
        "Software Development", "Test Plan", "Testing and QA", "User Documentation"};

    // The task index, start date, end date and color for each bar
    double taskNo[] = {0, 0, 1, 2, 3, 4, 5, 6, 6, 7, 8, 8};
    double startDate[] = {chartTime(2004, 8, 16), chartTime(2004, 10, 4), chartTime(
        2004, 8, 30), chartTime(2004, 9, 13), chartTime(2004, 9, 20), chartTime(2004,
        9, 27), chartTime(2004, 10, 4), chartTime(2004, 10, 4), chartTime(2004, 10,
        25), chartTime(2004, 11, 1), chartTime(2004, 10, 18), chartTime(2004, 11, 8)}
        ;
    double endDate[] = {chartTime(2004, 8, 30), chartTime(2004, 10, 18), chartTime(
        2004, 9, 13), chartTime(2004, 9, 27), chartTime(2004, 10, 4), chartTime(2004,
        10, 11), chartTime(2004, 11, 8), chartTime(2004, 10, 18), chartTime(2004, 11,
        8), chartTime(2004, 11, 22), chartTime(2004, 11, 1), chartTime(2004, 11, 22)}
        ;
    int colors[] = {0x00cc00, 0x00cc00, 0x00cc00, 0x0000cc, 0x0000cc, 0xcc0000,
        0xcc0000, 0x0000cc, 0xcc0000, 0xcc0000, 0x00cc00, 0xcc0000};

    // Create a XYChart object of size 620 x 325 pixels. Set background color to
    // light red (0xffcccc), with 1 pixel 3D border effect.
    XYChart *c = new XYChart(620, 325, 0xffcccc, 0x000000, 1);

    // Add a title to the chart using 15 points Times Bold Itatic font, with white
    // (ffffff) text on a dark red (800000) background
    c->addTitle("Mutli-Color Gantt Chart Demo", "timesbi.ttf", 15, 0xffffff
        )->setBackground(0x800000);

    // Set the plotarea at (140, 55) and of size 460 x 200 pixels. Use alternative
    // white/grey background. Enable both horizontal and vertical grids by setting
    // their colors to grey (c0c0c0). Set vertical major grid (represents month
    // boundaries) 2 pixels in width
    c->setPlotArea(140, 55, 460, 200, 0xffffff, 0xeeeeee, Chart::LineColor, 0xc0c0c0,
        0xc0c0c0)->setGridWidth(2, 1, 1, 1);

    // swap the x and y axes to create a horziontal box-whisker chart
    c->swapXY();

    // Set the y-axis scale to be date scale from Aug 16, 2004 to Nov 22, 2004, with
    // ticks every 7 days (1 week)
    c->yAxis()->setDateScale(chartTime(2004, 8, 16), chartTime(2004, 11, 22), 86400 *
        7);

    // Set multi-style axis label formatting. Month labels are in Arial Bold font in
    // "mmm d" format. Weekly labels just show the day of month and use minor tick
    // (by using '-' as first character of format string).
    c->yAxis()->setMultiFormat(Chart::StartOfMonthFilter(),
        "<*font=arialbd.ttf*>{value|mmm d}", Chart::StartOfDayFilter(), "-{value|d}")
        ;

    // Set the y-axis to shown on the top (right + swapXY = top)
    c->setYAxisOnRight();

    // Set the labels on the x axis
    c->xAxis()->setLabels(StringArray(labels, sizeof(labels)/sizeof(labels[0])));

    // Reverse the x-axis scale so that it points downwards.
    c->xAxis()->setReverse();

    // Set the horizontal ticks and grid lines to be between the bars
    c->xAxis()->setTickOffset(0.5);

    // Add some symbols to the chart to represent milestones. The symbols are added
    // using scatter layers. We need to specify the task index, date, name, symbol
    // shape, size and color.
    double coor1[] = {1};
    double date1[] = {chartTime(2004, 9, 13)};
    c->addScatterLayer(DoubleArray(coor1, sizeof(coor1)/sizeof(coor1[0])),
        DoubleArray(date1, sizeof(date1)/sizeof(date1[0])), "Milestone 1",
        Chart::Cross2Shape(), 13, 0xffff00);
    double coor2[] = {3};
    double date2[] = {chartTime(2004, 10, 4)};
    c->addScatterLayer(DoubleArray(coor2, sizeof(coor2)/sizeof(coor2[0])),
        DoubleArray(date2, sizeof(date2)/sizeof(date2[0])), "Milestone 2",
        Chart::StarShape(5), 15, 0xff00ff);
    double coor3[] = {5};
    double date3[] = {chartTime(2004, 11, 8)};
    c->addScatterLayer(DoubleArray(coor3, sizeof(coor3)/sizeof(coor3[0])),
        DoubleArray(date3, sizeof(date3)/sizeof(date3[0])), "Milestone 3",
        Chart::TriangleSymbol, 13, 0xff9933);

    // Add a multi-color box-whisker layer to represent the gantt bars
    BoxWhiskerLayer *layer = c->addBoxWhiskerLayer2(DoubleArray(startDate,
        sizeof(startDate)/sizeof(startDate[0])), DoubleArray(endDate,
        sizeof(endDate)/sizeof(endDate[0])), DoubleArray(), DoubleArray(),
        DoubleArray(), IntArray(colors, sizeof(colors)/sizeof(colors[0])));
    layer->setXData(DoubleArray(taskNo, sizeof(taskNo)/sizeof(taskNo[0])));
    layer->setBorderColor(Chart::SameAsMainColor);

    // Divide the plot area height ( = 200 in this chart) by the number of tasks to
    // get the height of each slot. Use 80% of that as the bar height.
    layer->setDataWidth(200 * 4 / 5 / (sizeof(labels) / sizeof(labels[0])));

    // Add a legend box at (140, 265) - bottom of the plot area. Use 8 pts Arial Bold
    // as the font with auto-grid layout. Set the width to the same width as the plot
    // area. Set the backgorund to grey (dddddd).
    LegendBox *legendBox = c->addLegend2(140, 265, Chart::AutoGrid, "arialbd.ttf", 8)
        ;
    legendBox->setWidth(461);
    legendBox->setBackground(0xdddddd);

    // The keys for the scatter layers (milestone symbols) will automatically be
    // added to the legend box. We just need to add keys to show the meanings of the
    // bar colors.
    legendBox->addKey("Market Team", 0x00cc00);
    legendBox->addKey("Planning Team", 0x0000cc);
    legendBox->addKey("Development Team", 0xcc0000);

    // Output the chart
    c->makeChart("colorgantt.png");

    //free up resources
    delete c;
    return 0;
}
Example #3
0
File: gantt.cpp Project: vopl/sp
int main(int argc, char *argv[])
{
    // data for the gantt chart, representing the start date, end date and names for
    // various activities
    double startDate[] = {chartTime(2004, 8, 16), chartTime(2004, 8, 30), chartTime(
        2004, 9, 13), chartTime(2004, 9, 20), chartTime(2004, 9, 27), chartTime(2004,
        10, 4), chartTime(2004, 10, 25), chartTime(2004, 11, 1), chartTime(2004, 11,
        8)};
    double endDate[] = {chartTime(2004, 8, 30), chartTime(2004, 9, 13), chartTime(
        2004, 9, 27), chartTime(2004, 10, 4), chartTime(2004, 10, 11), chartTime(
        2004, 11, 8), chartTime(2004, 11, 8), chartTime(2004, 11, 22), chartTime(
        2004, 11, 22)};
    const char *labels[] = {"Market Research", "Define Specifications",
        "Overall Archiecture", "Project Planning", "Detail Design",
        "Software Development", "Test Plan", "Testing and QA", "User Documentation"};

    // Create a XYChart object of size 620 x 280 pixels. Set background color to
    // light blue (ccccff), with 1 pixel 3D border effect.
    XYChart *c = new XYChart(620, 280, 0xccccff, 0x000000, 1);

    // Add a title to the chart using 15 points Times Bold Itatic font, with white
    // (ffffff) text on a deep blue (000080) background
    c->addTitle("Simple Gantt Chart Demo", "timesbi.ttf", 15, 0xffffff
        )->setBackground(0x000080);

    // Set the plotarea at (140, 55) and of size 460 x 200 pixels. Use alternative
    // white/grey background. Enable both horizontal and vertical grids by setting
    // their colors to grey (c0c0c0). Set vertical major grid (represents month
    // boundaries) 2 pixels in width
    c->setPlotArea(140, 55, 460, 200, 0xffffff, 0xeeeeee, Chart::LineColor, 0xc0c0c0,
        0xc0c0c0)->setGridWidth(2, 1, 1, 1);

    // swap the x and y axes to create a horziontal box-whisker chart
    c->swapXY();

    // Set the y-axis scale to be date scale from Aug 16, 2004 to Nov 22, 2004, with
    // ticks every 7 days (1 week)
    c->yAxis()->setDateScale(chartTime(2004, 8, 16), chartTime(2004, 11, 22), 86400 *
        7);

    // Set multi-style axis label formatting. Month labels are in Arial Bold font in
    // "mmm d" format. Weekly labels just show the day of month and use minor tick
    // (by using '-' as first character of format string).
    c->yAxis()->setMultiFormat(Chart::StartOfMonthFilter(),
        "<*font=arialbd.ttf*>{value|mmm d}", Chart::StartOfDayFilter(), "-{value|d}")
        ;

    // Set the y-axis to shown on the top (right + swapXY = top)
    c->setYAxisOnRight();

    // Set the labels on the x axis
    c->xAxis()->setLabels(StringArray(labels, sizeof(labels)/sizeof(labels[0])));

    // Reverse the x-axis scale so that it points downwards.
    c->xAxis()->setReverse();

    // Set the horizontal ticks and grid lines to be between the bars
    c->xAxis()->setTickOffset(0.5);

    // Add a green (33ff33) box-whisker layer showing the box only.
    c->addBoxWhiskerLayer(DoubleArray(startDate,
        sizeof(startDate)/sizeof(startDate[0])), DoubleArray(endDate,
        sizeof(endDate)/sizeof(endDate[0])), DoubleArray(), DoubleArray(),
        DoubleArray(), 0x00cc00, Chart::SameAsMainColor, Chart::SameAsMainColor);

    // output the chart
    c->makeChart("gantt.png");

    //free up resources
    delete c;
    return 0;
}
Example #4
0
int main(int argc, char *argv[])
{
    // the names of the tasks
    const char *labels[] = {"Market Research", "Define Specifications",
        "Overall Archiecture", "Project Planning", "Detail Design",
        "Software Development", "Test Plan", "Testing and QA", "User Documentation"};

    // the planned start dates and end dates for the tasks
    double startDate[] = {chartTime(2004, 8, 16), chartTime(2004, 8, 30), chartTime(
        2004, 9, 13), chartTime(2004, 9, 20), chartTime(2004, 9, 27), chartTime(2004,
        10, 4), chartTime(2004, 10, 25), chartTime(2004, 11, 1), chartTime(2004, 11,
        8)};
    double endDate[] = {chartTime(2004, 8, 30), chartTime(2004, 9, 13), chartTime(
        2004, 9, 27), chartTime(2004, 10, 4), chartTime(2004, 10, 11), chartTime(
        2004, 11, 8), chartTime(2004, 11, 8), chartTime(2004, 11, 22), chartTime(
        2004, 11, 22)};

    // the actual start dates and end dates for the tasks up to now
    double actualStartDate[] = {chartTime(2004, 8, 16), chartTime(2004, 8, 27),
        chartTime(2004, 9, 9), chartTime(2004, 9, 18), chartTime(2004, 9, 22)};
    double actualEndDate[] = {chartTime(2004, 8, 27), chartTime(2004, 9, 9),
        chartTime(2004, 9, 27), chartTime(2004, 10, 2), chartTime(2004, 10, 8)};

    // Create a XYChart object of size 620 x 280 pixels. Set background color to
    // light green (ccffcc) with 1 pixel 3D border effect.
    XYChart *c = new XYChart(620, 280, 0xccffcc, 0x000000, 1);

    // Add a title to the chart using 15 points Times Bold Itatic font, with white
    // (ffffff) text on a dark green (0x6000) background
    c->addTitle("Mutli-Layer Gantt Chart Demo", "timesbi.ttf", 15, 0xffffff
        )->setBackground(0x006000);

    // Set the plotarea at (140, 55) and of size 460 x 200 pixels. Use alternative
    // white/grey background. Enable both horizontal and vertical grids by setting
    // their colors to grey (c0c0c0). Set vertical major grid (represents month
    // boundaries) 2 pixels in width
    c->setPlotArea(140, 55, 460, 200, 0xffffff, 0xeeeeee, Chart::LineColor, 0xc0c0c0,
        0xc0c0c0)->setGridWidth(2, 1, 1, 1);

    // swap the x and y axes to create a horziontal box-whisker chart
    c->swapXY();

    // Set the y-axis scale to be date scale from Aug 16, 2004 to Nov 22, 2004, with
    // ticks every 7 days (1 week)
    c->yAxis()->setDateScale(chartTime(2004, 8, 16), chartTime(2004, 11, 22), 86400 *
        7);

    // Add a red (ff0000) dash line to represent the current day
    c->yAxis()->addMark(chartTime(2004, 10, 8), c->dashLineColor(0xff0000,
        Chart::DashLine));

    // Set multi-style axis label formatting. Month labels are in Arial Bold font in
    // "mmm d" format. Weekly labels just show the day of month and use minor tick
    // (by using '-' as first character of format string).
    c->yAxis()->setMultiFormat(Chart::StartOfMonthFilter(),
        "<*font=arialbd.ttf*>{value|mmm d}", Chart::StartOfDayFilter(), "-{value|d}")
        ;

    // Set the y-axis to shown on the top (right + swapXY = top)
    c->setYAxisOnRight();

    // Set the labels on the x axis
    c->xAxis()->setLabels(StringArray(labels, sizeof(labels)/sizeof(labels[0])));

    // Reverse the x-axis scale so that it points downwards.
    c->xAxis()->setReverse();

    // Set the horizontal ticks and grid lines to be between the bars
    c->xAxis()->setTickOffset(0.5);

    // Use blue (0000aa) as the color for the planned schedule
    int plannedColor = 0x0000aa;

    // Use a red hash pattern as the color for the actual dates. The pattern is
    // created as a 4 x 4 bitmap defined in memory as an array of colors.
    int pattern1[] = {0xffffff, 0xffffff, 0xffffff, 0xff0000, 0xffffff, 0xffffff,
        0xff0000, 0xffffff, 0xffffff, 0xff0000, 0xffffff, 0xffffff, 0xff0000,
        0xffffff, 0xffffff, 0xffffff};
    int actualColor = c->patternColor(IntArray(pattern1,
        sizeof(pattern1)/sizeof(pattern1[0])), 4);

    // Add a box whisker layer to represent the actual dates. We add the actual dates
    // layer first, so it will be the top layer.
    BoxWhiskerLayer *actualLayer = c->addBoxLayer(DoubleArray(actualStartDate,
        sizeof(actualStartDate)/sizeof(actualStartDate[0])), DoubleArray(
        actualEndDate, sizeof(actualEndDate)/sizeof(actualEndDate[0])), actualColor,
        "Actual");

    // Set the bar height to 8 pixels so they will not block the bottom bar
    actualLayer->setDataWidth(8);

    // Add a box-whisker layer to represent the planned schedule date
    c->addBoxLayer(DoubleArray(startDate, sizeof(startDate)/sizeof(startDate[0])),
        DoubleArray(endDate, sizeof(endDate)/sizeof(endDate[0])), plannedColor,
        "Planned")->setBorderColor(Chart::SameAsMainColor);

    // Add a legend box on the top right corner (595, 60) of the plot area with 8 pt
    // Arial Bold font. Use a semi-transparent grey (80808080) background.
    LegendBox *b = c->addLegend(595, 60, false, "arialbd.ttf", 8);
    b->setAlignment(Chart::TopRight);
    b->setBackground(0x80808080, -1, 2);

    // output the chart
    c->makeChart("layergantt.png");

    //free up resources
    delete c;
    return 0;
}
int main(int argc, char *argv[])
{
    //
    // Sample data for the HLOC chart.
    //
    double highData[] = {2043, 2039, 2076, 2064, 2048, 2058, 2070, 2033, 2027, 2029,
        2071, 2085, 2034, 2031, 2056, 2128, 2180, 2183, 2192, 2213, 2230, 2281, 2272}
        ;

    double lowData[] = {1931, 1921, 1985, 2028, 1986, 1994, 1999, 1958, 1943, 1944,
        1962, 2011, 1975, 1962, 1928, 2059, 2112, 2103, 2151, 2127, 2123, 2152, 2212}
        ;

    double openData[] = {2000, 1957, 1993, 2037, 2018, 2021, 2045, 2009, 1959, 1985,
        2008, 2048, 2006, 2010, 1971, 2080, 2116, 2137, 2170, 2172, 2171, 2191, 2240}
        ;

    double closeData[] = {1950, 1991, 2026, 2029, 2004, 2053, 2011, 1962, 1987, 2019,
        2040, 2016, 1996, 1985, 2006, 2113, 2142, 2167, 2158, 2201, 2188, 2231, 2242}
        ;

    // The labels for the HLOC chart
    const char *labels[] = {"Mon 1", "Tue 2", "Wed 3", "Thu 4", "Fri 5", "Mon 8",
        "Tue 9", "Wed 10", "Thu 11", "Fri 12", "Mon 15", "Tue 16", "Wed 17",
        "Thu 18", "Fri 19", "Mon 22", "Tue 23", "Wed 24", "Thu 25", "Fri 26",
        "Mon 29", "Tue 30", "Wed 31"};

    // Create a XYChart object of size 600 x 350 pixels
    XYChart *c = new XYChart(600, 350);

    // Set the plotarea at (50, 25) and of size 500 x 250 pixels. Enable both the
    // horizontal and vertical grids by setting their colors to grey (0xc0c0c0)
    c->setPlotArea(50, 25, 500, 250)->setGridColor(0xc0c0c0, 0xc0c0c0);

    // Add a title to the chart
    c->addTitle("Universal Stock Index on Jan 2001");

    // Add a custom text at (50, 25) (the upper left corner of the plotarea). Use 12
    // pts Arial Bold/blue (4040c0) as the font.
    c->addText(50, 25, "(c) Global XYZ ABC Company", "arialbd.ttf", 12, 0x4040c0);

    // Add a title to the x axis
    c->xAxis()->setTitle("Jan 2001");

    // Set the labels on the x axis. Rotate the labels by 45 degrees.
    c->xAxis()->setLabels(StringArray(labels, sizeof(labels)/sizeof(labels[0]))
        )->setFontAngle(45);

    // Add a title to the y axis
    c->yAxis()->setTitle("Universal Stock Index");

    // Draw the y axis on the right hand side of the plot area
    c->setYAxisOnRight(true);

    // Add a HLOC layer to the chart using green (008000) for up days and red
    // (ff0000) for down days
    HLOCLayer *layer = c->addHLOCLayer(DoubleArray(highData,
        sizeof(highData)/sizeof(highData[0])), DoubleArray(lowData,
        sizeof(lowData)/sizeof(lowData[0])), DoubleArray(openData,
        sizeof(openData)/sizeof(openData[0])), DoubleArray(closeData,
        sizeof(closeData)/sizeof(closeData[0])), 0x008000, 0xff0000);

    // Set the line width to 2 pixels
    layer->setLineWidth(2);

    // Output the chart
    c->makeChart("hloc.png");

    //free up resources
    delete c;
    return 0;
}