// Copyright 2019 Google Inc. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Package axes calculates the required layout and draws the X and Y axes of a line chart. package axes import ( "fmt" "image" ) const ( // nonZeroDecimals determines the overall precision of values displayed on the // graph, it indicates the number of non-zero decimal places the values will be // rounded up to. nonZeroDecimals = 2 // yAxisWidth is width of the Y axis. yAxisWidth = 1 ) // YDetails contain information about the Y axis that will be drawn onto the // canvas. type YDetails struct { // Width in character cells of the Y axis and its character labels. Width int // Start is the point where the Y axis starts. // Both coordinates of Start are less than End. Start image.Point // End is the point where the Y axis ends. End image.Point // Scale is the scale of the Y axis. Scale *YScale // Labels are the labels for values on the Y axis in an increasing order. Labels []*Label } // Y tracks the state of the Y axis throughout the lifetime of a line chart. // Implements lazy resize of the axis to decrease visual "jumping". // This object is not thread-safe. type Y struct { // min is the smallest value on the Y axis. min *Value // max is the largest value on the Y axis. max *Value // details about the Y axis as it will be drawn. details *YDetails } // NewY returns a new Y instance. // The minVal and maxVal represent the minimum and maximum value that will be // displayed on the line chart among all of the series. func NewY(minVal, maxVal float64) *Y { y := &Y{} y.Update(minVal, maxVal) return y } // Update updates the stored minVal and maxVal. func (y *Y) Update(minVal, maxVal float64) { y.min, y.max = NewValue(minVal, nonZeroDecimals), NewValue(maxVal, nonZeroDecimals) } // RequiredWidth calculates the minimum width required in order to draw the Y axis. func (y *Y) RequiredWidth() int { // This is an estimation only, it is possible that more labels in the // middle will be generated and might be wider than this. Such cases are // handled on the call to Details when the size of canvas is known. return widestLabel([]*Label{ {Value: y.min}, {Value: y.max}, }) + yAxisWidth } // Details retrieves details about the Y axis required to draw it on a canvas // of the provided area. func (y *Y) Details(cvsAr image.Rectangle, mode YScaleMode) (*YDetails, error) { cvsWidth := cvsAr.Dx() cvsHeight := cvsAr.Dy() maxWidth := cvsWidth - 1 // Reserve one row for the line chart itself. if req := y.RequiredWidth(); maxWidth < req { return nil, fmt.Errorf("the received maxWidth %d is smaller than the reported required width %d", maxWidth, req) } graphHeight := cvsHeight - 2 // One row for the X axis and one for its labels. scale, err := NewYScale(y.min.Value, y.max.Value, graphHeight, nonZeroDecimals, mode) if err != nil { return nil, err } // See how the labels would look like on the entire maxWidth. maxLabelWidth := maxWidth - yAxisWidth labels, err := yLabels(scale, maxLabelWidth) if err != nil { return nil, err } var width int // Determine the largest label, which might be less than maxWidth. // Such case would allow us to save more space for the line chart itself. widest := widestLabel(labels) if widest < maxLabelWidth { // Save the space and recalculate the labels, since they need to be realigned. l, err := yLabels(scale, widest) if err != nil { return nil, err } labels = l width = widest + yAxisWidth // One for the axis itself. } else { width = maxWidth } return &YDetails{ Width: width, Start: image.Point{width - 1, 0}, End: image.Point{width - 1, graphHeight}, Scale: scale, Labels: labels, }, nil } // widestLabel returns the width of the widest label. func widestLabel(labels []*Label) int { var widest int for _, label := range labels { if l := len(label.Value.Text()); l > widest { widest = l } } return widest } // XDetails contain information about the X axis that will be drawn onto the // canvas. type XDetails struct { // Start is the point where the X axis starts. // Both coordinates of Start are less than End. Start image.Point // End is the point where the X axis ends. End image.Point // Scale is the scale of the X axis. Scale *XScale // Labels are the labels for values on the X axis in an increasing order. Labels []*Label } // NewXDetails retrieves details about the X axis required to draw it on a canvas // of the provided area. The yStart is the point where the Y axis starts. // The numPoints is the number of points in the largest series that will be // plotted. // customLabels are the desired labels for the X axis, these are preferred if // provided. func NewXDetails(numPoints int, yStart image.Point, cvsAr image.Rectangle, customLabels map[int]string) (*XDetails, error) { if min := 3; cvsAr.Dy() < min { return nil, fmt.Errorf("the canvas isn't tall enough to accommodate the X axis, its labels and the line chart, got height %d, minimum is %d", cvsAr.Dy(), min) } // The space between the start of the axis and the end of the canvas. graphWidth := cvsAr.Dx() - yStart.X - 1 scale, err := NewXScale(numPoints, graphWidth, nonZeroDecimals) if err != nil { return nil, err } // One point horizontally for the Y axis. // Two points vertically, one for the X axis and one for its labels. graphZero := image.Point{yStart.X + 1, cvsAr.Dy() - 3} labels, err := xLabels(scale, graphZero, customLabels) if err != nil { return nil, err } return &XDetails{ Start: image.Point{yStart.X, cvsAr.Dy() - 2}, // One row for the labels. End: image.Point{yStart.X + graphWidth, cvsAr.Dy() - 2}, Scale: scale, Labels: labels, }, nil }