tools/src/progressbar/progressbar.go - dawn - Git at Google

 // Copyright 2023 Google LLC
 //
 // 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
 //
 //   https://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 progressbar provides functions for drawing unicode progress bars to
 // the terminal
 package progressbar

 import (
 	"bytes"
 	"fmt"
 	"io"
 	"math"
 	"strings"
 	"time"
 )

 // Defaults for the Config
 const (
 	DefaultRefreshRate = time.Millisecond * 100
 	DefaultWidth       = 50
 	DefaultANSIColors  = true
 )

 // Config holds configuration options for a ProgressBar
 type Config struct {
 	RefreshRate time.Duration
 	Width       int
 	ANSIColors  bool
 }

 // Color is an enumerator of colors
 type Color int

 // Color enumerators
 const (
 	White Color = iota
 	Red
 	Green
 	Yellow
 	Blue
 	Magenta
 	Cyan
 )

 // Segment describes a single segment of the ProgressBar
 type Segment struct {
 	Count       int
 	Color       Color
 	Transparent bool
 	Bold        bool
 }

 // Status holds the updated data of the ProgressBar
 type Status struct {
 	Total    int
 	Segments []Segment
 }

 // ProgressBar returns a string with an ANSI-colored progress bar, providing
 // realtime information about the status of the CTS run.
 // Note: We'll want to skip this if !isatty or if we're running on windows.
 type ProgressBar struct {
 	Config
 	out io.Writer
 	c   chan Status
 }

 // New returns a new ProgressBar that streams output to out.
 // Call ProgressBar.Stop() once finished.
 func New(out io.Writer, cfg *Config) *ProgressBar {
 	p := &ProgressBar{out: out, c: make(chan Status)}
 	if cfg != nil {
 		p.Config = *cfg
 	} else {
 		p.ANSIColors = DefaultANSIColors
 	}
 	if p.RefreshRate == 0 {
 		p.RefreshRate = DefaultRefreshRate
 	}
 	if p.Width == 0 {
 		p.Width = DefaultWidth
 	}
 	go func() {
 		var status *Status
 		t := time.NewTicker(p.RefreshRate)
 		defer t.Stop()
 		for frame := 0; ; frame++ {
 			select {
 			case s, ok := <-p.c:
 				if !ok {
 					return
 				}
 				status = &s
 			case <-t.C:
 				if status != nil {
 					status.Draw(out, p.Width, p.ANSIColors, frame)
 				}
 			}
 		}
 	}()
 	return p
 }

 // Update updates the ProgressBar with the given status
 func (p *ProgressBar) Update(s Status) {
 	p.c <- s
 }

 // Stop stops drawing the progress bar.
 // Once called, the ProgressBar must not be used.
 func (p *ProgressBar) Stop() {
 	close(p.c)
 }

 // Draw draws the ProgressBar status to out
 func (s Status) Draw(out io.Writer, width int, ansiColors bool, animFrame int) {
 	// ANSI escape sequences
 	const (
 		escape       = "\u001B["
 		positionLeft = escape + "0G"
 		ansiReset    = escape + "0m"

 		bold = escape + "1m"

 		red     = escape + "31m"
 		green   = escape + "32m"
 		yellow  = escape + "33m"
 		blue    = escape + "34m"
 		magenta = escape + "35m"
 		cyan    = escape + "36m"
 		white   = escape + "37m"
 	)

 	animSymbols := []rune{'⣾', '⣽', '⣻', '⢿', '⡿', '⣟', '⣯', '⣷'}
 	blockSymbols := []rune{'▏', '▎', '▍', '▌', '▋', '▊', '▉'}

 	numBlocksPrinted := 0

 	buf := &bytes.Buffer{}
 	fmt.Fprint(buf, "  ", string(animSymbols[animFrame%len(animSymbols)]), " [")

 	numFinished := 0
 	for _, seg := range s.Segments {
 		if ansiColors {
 			switch seg.Color {
 			case Red:
 				buf.WriteString(red)
 			case Green:
 				buf.WriteString(green)
 			case Yellow:
 				buf.WriteString(yellow)
 			case Blue:
 				buf.WriteString(blue)
 			case Magenta:
 				buf.WriteString(magenta)
 			case Cyan:
 				buf.WriteString(cyan)
 			default:
 				buf.WriteString(white)
 			}
 			if seg.Bold {
 				buf.WriteString(bold)
 			}
 		}

 		numFinished += seg.Count
 		statusFrac := float64(seg.Count) / float64(s.Total)
 		fNumBlocks := float64(width) * statusFrac
 		numBlocks := int(math.Ceil(fNumBlocks))
 		if seg.Transparent {
 			if numBlocks > 0 {
 				fmt.Fprint(buf, strings.Repeat(string("░"), numBlocks))
 			}
 		} else {
 			if numBlocks > 1 {
 				fmt.Fprint(buf, strings.Repeat(string("▉"), numBlocks-1))
 			}
 			if numBlocks > 0 {
 				frac := fNumBlocks - float64(numBlocks-1)
 				symbol := blockSymbols[int(math.Round(frac*float64(len(blockSymbols)-1)))]
 				fmt.Fprint(buf, string(symbol))
 			}
 		}
 		numBlocksPrinted += numBlocks
 	}

 	if width > numBlocksPrinted {
 		fmt.Fprint(buf, strings.Repeat(string(" "), width-numBlocksPrinted))
 	}
 	fmt.Fprint(buf, ansiReset)
 	fmt.Fprint(buf, "] ", percentage(numFinished, s.Total))

 	if ansiColors {
 		// move cursor to start of line so the bar is overridden next print
 		fmt.Fprint(buf, positionLeft)
 	} else {
 		// cannot move cursor, so newline
 		fmt.Fprintln(buf)
 	}

 	out.Write(buf.Bytes())
 }

 // percentage returns the percentage of n out of total as a string
 func percentage(n, total int) string {
 	if total == 0 {
 		return "-"
 	}
 	f := float64(n) / float64(total)
 	return fmt.Sprintf("%.1f%c", f*100.0, '%')
 }
	// Copyright 2023 Google LLC
	//
	// 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
	//
	// https://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 progressbar provides functions for drawing unicode progress bars to
	// the terminal
	package progressbar

	import (
	"bytes"
	"fmt"
	"io"
	"math"
	"strings"
	"time"
	)

	// Defaults for the Config
	const (
	DefaultRefreshRate = time.Millisecond * 100
	DefaultWidth = 50
	DefaultANSIColors = true
	)

	// Config holds configuration options for a ProgressBar
	type Config struct {
	RefreshRate time.Duration
	Width int
	ANSIColors bool
	}

	// Color is an enumerator of colors
	type Color int

	// Color enumerators
	const (
	White Color = iota
	Red
	Green
	Yellow
	Blue
	Magenta
	Cyan
	)

	// Segment describes a single segment of the ProgressBar
	type Segment struct {
	Count int
	Color Color
	Transparent bool
	Bold bool
	}

	// Status holds the updated data of the ProgressBar
	type Status struct {
	Total int
	Segments []Segment
	}

	// ProgressBar returns a string with an ANSI-colored progress bar, providing
	// realtime information about the status of the CTS run.
	// Note: We'll want to skip this if !isatty or if we're running on windows.
	type ProgressBar struct {
	Config
	out io.Writer
	c chan Status
	}

	// New returns a new ProgressBar that streams output to out.
	// Call ProgressBar.Stop() once finished.
	func New(out io.Writer, cfg Config) ProgressBar {
	p := &ProgressBar{out: out, c: make(chan Status)}
	if cfg != nil {
	p.Config = *cfg
	} else {
	p.ANSIColors = DefaultANSIColors
	}
	if p.RefreshRate == 0 {
	p.RefreshRate = DefaultRefreshRate
	}
	if p.Width == 0 {
	p.Width = DefaultWidth
	}
	go func() {
	var status *Status
	t := time.NewTicker(p.RefreshRate)
	defer t.Stop()
	for frame := 0; ; frame++ {
	select {
	case s, ok := <-p.c:
	if !ok {
	return
	}
	status = &s
	case <-t.C:
	if status != nil {
	status.Draw(out, p.Width, p.ANSIColors, frame)
	}
	}
	}
	}()
	return p
	}

	// Update updates the ProgressBar with the given status
	func (p *ProgressBar) Update(s Status) {
	p.c <- s
	}

	// Stop stops drawing the progress bar.
	// Once called, the ProgressBar must not be used.
	func (p *ProgressBar) Stop() {
	close(p.c)
	}

	// Draw draws the ProgressBar status to out
	func (s Status) Draw(out io.Writer, width int, ansiColors bool, animFrame int) {
	// ANSI escape sequences
	const (
	escape = "\u001B["
	positionLeft = escape + "0G"
	ansiReset = escape + "0m"

	bold = escape + "1m"

	red = escape + "31m"
	green = escape + "32m"
	yellow = escape + "33m"
	blue = escape + "34m"
	magenta = escape + "35m"
	cyan = escape + "36m"
	white = escape + "37m"
	)

	animSymbols := []rune{'⣾', '⣽', '⣻', '⢿', '⡿', '⣟', '⣯', '⣷'}
	blockSymbols := []rune{'▏', '▎', '▍', '▌', '▋', '▊', '▉'}

	numBlocksPrinted := 0

	buf := &bytes.Buffer{}
	fmt.Fprint(buf, " ", string(animSymbols[animFrame%len(animSymbols)]), " [")

	numFinished := 0
	for _, seg := range s.Segments {
	if ansiColors {
	switch seg.Color {
	case Red:
	buf.WriteString(red)
	case Green:
	buf.WriteString(green)
	case Yellow:
	buf.WriteString(yellow)
	case Blue:
	buf.WriteString(blue)
	case Magenta:
	buf.WriteString(magenta)
	case Cyan:
	buf.WriteString(cyan)
	default:
	buf.WriteString(white)
	}
	if seg.Bold {
	buf.WriteString(bold)
	}
	}

	numFinished += seg.Count
	statusFrac := float64(seg.Count) / float64(s.Total)
	fNumBlocks := float64(width) * statusFrac
	numBlocks := int(math.Ceil(fNumBlocks))
	if seg.Transparent {
	if numBlocks > 0 {
	fmt.Fprint(buf, strings.Repeat(string("░"), numBlocks))
	}
	} else {
	if numBlocks > 1 {
	fmt.Fprint(buf, strings.Repeat(string("▉"), numBlocks-1))
	}
	if numBlocks > 0 {
	frac := fNumBlocks - float64(numBlocks-1)
	symbol := blockSymbols[int(math.Round(frac*float64(len(blockSymbols)-1)))]
	fmt.Fprint(buf, string(symbol))
	}
	}
	numBlocksPrinted += numBlocks
	}

	if width > numBlocksPrinted {
	fmt.Fprint(buf, strings.Repeat(string(" "), width-numBlocksPrinted))
	}
	fmt.Fprint(buf, ansiReset)
	fmt.Fprint(buf, "] ", percentage(numFinished, s.Total))

	if ansiColors {
	// move cursor to start of line so the bar is overridden next print
	fmt.Fprint(buf, positionLeft)
	} else {
	// cannot move cursor, so newline
	fmt.Fprintln(buf)
	}

	out.Write(buf.Bytes())
	}

	// percentage returns the percentage of n out of total as a string
	func percentage(n, total int) string {
	if total == 0 {
	return "-"
	}
	f := float64(n) / float64(total)
	return fmt.Sprintf("%.1f%c", f*100.0, '%')
	}