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@ -100,7 +100,7 @@ namespace CairoChart {
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public virtual void calc_rec_sizes (Chart chart, out double max_rec_width, out double max_rec_height, bool horizontal = true) {
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max_rec_width = max_rec_height = 0;
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for (var i = 0; i < nrecords; ++i) {
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Float128 x = (int64)(range.zmin + (range.zmax - range.zmin) / nrecords * i) + 1.0/3.0;
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Float128 x = (int64)(range.zmin + range.zrange / nrecords * i) + 1.0/3.0;
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switch (type) {
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case Axis.Type.NUMBERS:
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var text = new Text (format.printf((LongDouble)x) + (horizontal ? "_" : ""), font_style);
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@ -11,7 +11,12 @@ namespace CairoChart {
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public Area area = new Area();
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/**
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* Current evaluated area.
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* Plot area bounds.
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*/
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public Area plarea = new Area.with_abs(0, 0, 1, 1);
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/**
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* Current evaluated plot area.
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*/
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public Area evarea = new Area.with_abs(0, 0, 1, 1);
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@ -20,11 +25,6 @@ namespace CairoChart {
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*/
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public Area zoom = new Area.with_abs(0, 0, 1, 1);
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/**
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* Plot area bounds.
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*/
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public Area plarea = new Area.with_abs(0, 0, 1, 1);
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/**
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* Cairo ``Context`` of the Drawing Area.
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*/
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@ -331,12 +331,12 @@ namespace CairoChart {
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s.axis_x.calc_rec_sizes (chart, out max_rec_width, out max_rec_height, true);
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// 2. Calculate maximal available number of records, take into account the space width.
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long max_nrecs = (long) (chart.plarea.width * (s.place.zx1 - s.place.zx0) / max_rec_width);
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long max_nrecs = (long) (chart.plarea.width * s.place.zwidth / max_rec_width);
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// 3. Calculate grid step.
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Float128 step = Math.calc_round_step ((s.axis_x.range.zmax - s.axis_x.range.zmin) / max_nrecs, s.axis_x.type == Axis.Type.DATE_TIME);
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if (step > s.axis_x.range.zmax - s.axis_x.range.zmin)
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step = s.axis_x.range.zmax - s.axis_x.range.zmin;
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Float128 step = Math.calc_round_step (s.axis_x.range.zrange / max_nrecs, s.axis_x.type == Axis.Type.DATE_TIME);
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if (step > s.axis_x.range.zrange)
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step = s.axis_x.range.zrange;
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// 4. Calculate x_min (s.axis_x.range.zmin / step, round, multiply on step, add step if < s.axis_x.range.zmin).
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Float128 x_min = 0.0;
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@ -451,12 +451,12 @@ namespace CairoChart {
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s.axis_y.calc_rec_sizes (chart, out max_rec_width, out max_rec_height, false);
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// 2. Calculate maximal available number of records, take into account the space width.
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long max_nrecs = (long) (chart.plarea.height * (s.place.zy1 - s.place.zy0) / max_rec_height);
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long max_nrecs = (long) (chart.plarea.height * s.place.zheight / max_rec_height);
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// 3. Calculate grid step.
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Float128 step = Math.calc_round_step ((s.axis_y.range.zmax - s.axis_y.range.zmin) / max_nrecs);
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if (step > s.axis_y.range.zmax - s.axis_y.range.zmin)
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step = s.axis_y.range.zmax - s.axis_y.range.zmin;
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Float128 step = Math.calc_round_step (s.axis_y.range.zrange / max_nrecs);
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if (step > s.axis_y.range.zrange)
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step = s.axis_y.range.zrange;
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// 4. Calculate y_min (s.axis_y.range.zmin / step, round, multiply on step, add step if < s.axis_y.range.zmin).
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Float128 y_min = 0.0;
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@ -518,21 +518,21 @@ namespace CairoChart {
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public virtual double compact_rec_x_pos (Float128 x, Text text) {
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var sz = text.get_size(chart.ctx);
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return get_scr_x(x) - sz.width / 2.0
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- sz.width * (x - (axis_x.range.zmin + axis_x.range.zmax) / 2.0) / (axis_x.range.zmax - axis_x.range.zmin);
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- sz.width * (x - (axis_x.range.zmin + axis_x.range.zmax) / 2.0) / axis_x.range.zrange;
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}
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public virtual double compact_rec_y_pos (Float128 y, Text text) {
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var sz = text.get_size(chart.ctx);
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return get_scr_y(y) + sz.height / 2.0
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+ sz.height * (y - (axis_y.range.zmin + axis_y.range.zmax) / 2.0) / (axis_y.range.zmax - axis_y.range.zmin);
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+ sz.height * (y - (axis_y.range.zmin + axis_y.range.zmax) / 2.0) / axis_y.range.zrange;
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}
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public virtual double get_scr_x (Float128 x) {
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return chart.plarea.x0 + chart.plarea.width * (place.zx0 + (x - axis_x.range.zmin) / (axis_x.range.zmax - axis_x.range.zmin) * (place.zx1 - place.zx0));
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return chart.plarea.x0 + chart.plarea.width * (place.zx0 + (x - axis_x.range.zmin) / axis_x.range.zrange * place.zwidth);
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}
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public virtual double get_scr_y (Float128 y) {
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return chart.plarea.y0 + chart.plarea.height * (1.0 - (place.zy0 + (y - axis_y.range.zmin) / (axis_y.range.zmax - axis_y.range.zmin) * (place.zy1 - place.zy0)));
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return chart.plarea.y0 + chart.plarea.height * (1.0 - (place.zy0 + (y - axis_y.range.zmin) / axis_y.range.zrange * place.zheight));
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}
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public virtual Point get_scr_point (Point128 p) {
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@ -540,13 +540,11 @@ namespace CairoChart {
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}
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public virtual Float128 get_real_x (double scr_x) {
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return axis_x.range.zmin + ((scr_x - chart.plarea.x0) / chart.plarea.width - place.zx0)
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* (axis_x.range.zmax - axis_x.range.zmin) / (place.zx1 - place.zx0);
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return axis_x.range.zmin + ((scr_x - chart.plarea.x0) / chart.plarea.width - place.zx0) * axis_x.range.zrange / place.zwidth;
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}
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public virtual Float128 get_real_y (double scr_y) {
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return axis_y.range.zmin + ((chart.plarea.y1 - scr_y) / chart.plarea.height - place.zy0)
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* (axis_y.range.zmax - axis_y.range.zmin) / (place.zy1 - place.zy0);
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return axis_y.range.zmin + ((chart.plarea.y1 - scr_y) / chart.plarea.height - place.zy0) * axis_y.range.zrange / place.zheight;
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}
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public virtual Point128 get_real_point (Point p) {
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