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k3s/vendor/gonum.org/v1/gonum/mat/format.go

239 lines
5.6 KiB

// Copyright ©2013 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package mat
import (
"fmt"
"strconv"
)
// Formatted returns a fmt.Formatter for the matrix m using the given options.
func Formatted(m Matrix, options ...FormatOption) fmt.Formatter {
f := formatter{
matrix: m,
dot: '.',
}
for _, o := range options {
o(&f)
}
return f
}
type formatter struct {
matrix Matrix
prefix string
margin int
dot byte
squeeze bool
}
// FormatOption is a functional option for matrix formatting.
type FormatOption func(*formatter)
// Prefix sets the formatted prefix to the string p. Prefix is a string that is prepended to
// each line of output.
func Prefix(p string) FormatOption {
return func(f *formatter) { f.prefix = p }
}
// Excerpt sets the maximum number of rows and columns to print at the margins of the matrix
// to m. If m is zero or less all elements are printed.
func Excerpt(m int) FormatOption {
return func(f *formatter) { f.margin = m }
}
// DotByte sets the dot character to b. The dot character is used to replace zero elements
// if the result is printed with the fmt ' ' verb flag. Without a DotByte option, the default
// dot character is '.'.
func DotByte(b byte) FormatOption {
return func(f *formatter) { f.dot = b }
}
// Squeeze sets the printing behaviour to minimise column width for each individual column.
func Squeeze() FormatOption {
return func(f *formatter) { f.squeeze = true }
}
// Format satisfies the fmt.Formatter interface.
func (f formatter) Format(fs fmt.State, c rune) {
if c == 'v' && fs.Flag('#') {
fmt.Fprintf(fs, "%#v", f.matrix)
return
}
format(f.matrix, f.prefix, f.margin, f.dot, f.squeeze, fs, c)
}
// format prints a pretty representation of m to the fs io.Writer. The format character c
// specifies the numerical representation of elements; valid values are those for float64
// specified in the fmt package, with their associated flags. In addition to this, a space
// preceding a verb indicates that zero values should be represented by the dot character.
// The printed range of the matrix can be limited by specifying a positive value for margin;
// If margin is greater than zero, only the first and last margin rows/columns of the matrix
// are output. If squeeze is true, column widths are determined on a per-column basis.
//
// format will not provide Go syntax output.
func format(m Matrix, prefix string, margin int, dot byte, squeeze bool, fs fmt.State, c rune) {
rows, cols := m.Dims()
var printed int
if margin <= 0 {
printed = rows
if cols > printed {
printed = cols
}
} else {
printed = margin
}
prec, pOk := fs.Precision()
if !pOk {
prec = -1
}
var (
maxWidth int
widths widther
buf, pad []byte
)
if squeeze {
widths = make(columnWidth, cols)
} else {
widths = new(uniformWidth)
}
switch c {
case 'v', 'e', 'E', 'f', 'F', 'g', 'G':
if c == 'v' {
buf, maxWidth = maxCellWidth(m, 'g', printed, prec, widths)
} else {
buf, maxWidth = maxCellWidth(m, c, printed, prec, widths)
}
default:
fmt.Fprintf(fs, "%%!%c(%T=Dims(%d, %d))", c, m, rows, cols)
return
}
width, _ := fs.Width()
width = max(width, maxWidth)
pad = make([]byte, max(width, 2))
for i := range pad {
pad[i] = ' '
}
first := true
if rows > 2*printed || cols > 2*printed {
first = false
fmt.Fprintf(fs, "Dims(%d, %d)\n", rows, cols)
}
skipZero := fs.Flag(' ')
for i := 0; i < rows; i++ {
if !first {
fmt.Fprint(fs, prefix)
}
first = false
var el string
switch {
case rows == 1:
fmt.Fprint(fs, "[")
el = "]"
case i == 0:
fmt.Fprint(fs, "⎡")
el = "⎤\n"
case i < rows-1:
fmt.Fprint(fs, "⎢")
el = "⎥\n"
default:
fmt.Fprint(fs, "⎣")
el = "⎦"
}
for j := 0; j < cols; j++ {
if j >= printed && j < cols-printed {
j = cols - printed - 1
if i == 0 || i == rows-1 {
fmt.Fprint(fs, "... ... ")
} else {
fmt.Fprint(fs, " ")
}
continue
}
v := m.At(i, j)
if v == 0 && skipZero {
buf = buf[:1]
buf[0] = dot
} else {
if c == 'v' {
buf = strconv.AppendFloat(buf[:0], v, 'g', prec, 64)
} else {
buf = strconv.AppendFloat(buf[:0], v, byte(c), prec, 64)
}
}
if fs.Flag('-') {
fs.Write(buf)
fs.Write(pad[:widths.width(j)-len(buf)])
} else {
fs.Write(pad[:widths.width(j)-len(buf)])
fs.Write(buf)
}
if j < cols-1 {
fs.Write(pad[:2])
}
}
fmt.Fprint(fs, el)
if i >= printed-1 && i < rows-printed && 2*printed < rows {
i = rows - printed - 1
fmt.Fprintf(fs, "%s .\n%[1]s .\n%[1]s .\n", prefix)
continue
}
}
}
func maxCellWidth(m Matrix, c rune, printed, prec int, w widther) ([]byte, int) {
var (
buf = make([]byte, 0, 64)
rows, cols = m.Dims()
max int
)
for i := 0; i < rows; i++ {
if i >= printed-1 && i < rows-printed && 2*printed < rows {
i = rows - printed - 1
continue
}
for j := 0; j < cols; j++ {
if j >= printed && j < cols-printed {
continue
}
buf = strconv.AppendFloat(buf, m.At(i, j), byte(c), prec, 64)
if len(buf) > max {
max = len(buf)
}
if len(buf) > w.width(j) {
w.setWidth(j, len(buf))
}
buf = buf[:0]
}
}
return buf, max
}
type widther interface {
width(i int) int
setWidth(i, w int)
}
type uniformWidth int
func (u *uniformWidth) width(_ int) int { return int(*u) }
func (u *uniformWidth) setWidth(_, w int) { *u = uniformWidth(w) }
type columnWidth []int
func (c columnWidth) width(i int) int { return c[i] }
func (c columnWidth) setWidth(i, w int) { c[i] = w }