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hugo/resource/image.go
Bjørn Erik Pedersen dea71670c0
Add Hugo Piper with SCSS support and much more 
Before this commit, you would have to use page bundles to do image processing etc. in Hugo.

This commit adds

* A new `/assets` top-level project or theme dir (configurable via `assetDir`)
* A new template func, `resources.Get` which can be used to "get a resource" that can be further processed.

This means that you can now do this in your templates (or shortcodes):

```bash
{{ $sunset := (resources.Get "images/sunset.jpg").Fill "300x200" }}
```

This also adds a new `extended` build tag that enables powerful SCSS/SASS support with source maps. To compile this from source, you will also need a C compiler installed:

```
HUGO_BUILD_TAGS=extended mage install
```

Note that you can use output of the SCSS processing later in a non-SCSSS-enabled Hugo.

The `SCSS` processor is a _Resource transformation step_ and it can be chained with the many others in a pipeline:

```bash
{{ $css := resources.Get "styles.scss" | resources.ToCSS | resources.PostCSS | resources.Minify | resources.Fingerprint }}
<link rel="stylesheet" href="{{ $styles.RelPermalink }}" integrity="{{ $styles.Data.Digest }}" media="screen">
```

The transformation funcs above have aliases, so it can be shortened to:

```bash
{{ $css := resources.Get "styles.scss" | toCSS | postCSS | minify | fingerprint }}
<link rel="stylesheet" href="{{ $styles.RelPermalink }}" integrity="{{ $styles.Data.Digest }}" media="screen">
```

A quick tip would be to avoid the fingerprinting part, and possibly also the not-superfast `postCSS` when you're doing development, as it allows Hugo to be smarter about the rebuilding.

Documentation will follow, but have a look at the demo repo in https://github.com/bep/hugo-sass-test

New functions to create `Resource` objects:

* `resources.Get` (see above)
* `resources.FromString`: Create a Resource from a string.

New `Resource` transformation funcs:

* `resources.ToCSS`: Compile `SCSS` or `SASS` into `CSS`.
* `resources.PostCSS`: Process your CSS with PostCSS. Config file support (project or theme or passed as an option).
* `resources.Minify`: Currently supports `css`, `js`, `json`, `html`, `svg`, `xml`.
* `resources.Fingerprint`: Creates a fingerprinted version of the given Resource with Subresource Integrity..
* `resources.Concat`: Concatenates a list of Resource objects. Think of this as a poor man's bundler.
* `resources.ExecuteAsTemplate`: Parses and executes the given Resource and data context (e.g. .Site) as a Go template.

Fixes #4381
Fixes #4903
Fixes #4858
2018-07-06 11:46:12 +02:00

622 lines
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// Copyright 2017-present The Hugo Authors. All rights reserved.
//
// 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 resource
import (
"errors"
"fmt"
"image/color"
"io"
"os"
"strconv"
"strings"
"github.com/mitchellh/mapstructure"
"github.com/gohugoio/hugo/helpers"
// Importing image codecs for image.DecodeConfig
"image"
"image/draw"
_ "image/gif"
"image/jpeg"
_ "image/png"
"github.com/disintegration/imaging"
// Import webp codec
"sync"
_ "golang.org/x/image/webp"
)
var (
_ Resource = (*Image)(nil)
_ Source = (*Image)(nil)
_ Cloner = (*Image)(nil)
)
// Imaging contains default image processing configuration. This will be fetched
// from site (or language) config.
type Imaging struct {
// Default image quality setting (1-100). Only used for JPEG images.
Quality int
// Resample filter used. See https://github.com/disintegration/imaging
ResampleFilter string
// The anchor used in Fill. Default is "smart", i.e. Smart Crop.
Anchor string
}
const (
defaultJPEGQuality = 75
defaultResampleFilter = "box"
)
var (
imageFormats = map[string]imaging.Format{
".jpg": imaging.JPEG,
".jpeg": imaging.JPEG,
".png": imaging.PNG,
".tif": imaging.TIFF,
".tiff": imaging.TIFF,
".bmp": imaging.BMP,
".gif": imaging.GIF,
}
// Add or increment if changes to an image format's processing requires
// re-generation.
imageFormatsVersions = map[imaging.Format]int{
imaging.PNG: 2, // Floyd Steinberg dithering
}
// Increment to mark all processed images as stale. Only use when absolutely needed.
// See the finer grained smartCropVersionNumber and imageFormatsVersions.
mainImageVersionNumber = 0
)
var anchorPositions = map[string]imaging.Anchor{
strings.ToLower("Center"): imaging.Center,
strings.ToLower("TopLeft"): imaging.TopLeft,
strings.ToLower("Top"): imaging.Top,
strings.ToLower("TopRight"): imaging.TopRight,
strings.ToLower("Left"): imaging.Left,
strings.ToLower("Right"): imaging.Right,
strings.ToLower("BottomLeft"): imaging.BottomLeft,
strings.ToLower("Bottom"): imaging.Bottom,
strings.ToLower("BottomRight"): imaging.BottomRight,
}
var imageFilters = map[string]imaging.ResampleFilter{
strings.ToLower("NearestNeighbor"): imaging.NearestNeighbor,
strings.ToLower("Box"): imaging.Box,
strings.ToLower("Linear"): imaging.Linear,
strings.ToLower("Hermite"): imaging.Hermite,
strings.ToLower("MitchellNetravali"): imaging.MitchellNetravali,
strings.ToLower("CatmullRom"): imaging.CatmullRom,
strings.ToLower("BSpline"): imaging.BSpline,
strings.ToLower("Gaussian"): imaging.Gaussian,
strings.ToLower("Lanczos"): imaging.Lanczos,
strings.ToLower("Hann"): imaging.Hann,
strings.ToLower("Hamming"): imaging.Hamming,
strings.ToLower("Blackman"): imaging.Blackman,
strings.ToLower("Bartlett"): imaging.Bartlett,
strings.ToLower("Welch"): imaging.Welch,
strings.ToLower("Cosine"): imaging.Cosine,
}
type Image struct {
config image.Config
configInit sync.Once
configLoaded bool
copyToDestinationInit sync.Once
// Lock used when creating alternate versions of this image.
createMu sync.Mutex
imaging *Imaging
format imaging.Format
*genericResource
}
func (i *Image) Width() int {
i.initConfig()
return i.config.Width
}
func (i *Image) Height() int {
i.initConfig()
return i.config.Height
}
// Implement the Cloner interface.
func (i *Image) WithNewBase(base string) Resource {
return &Image{
imaging: i.imaging,
format: i.format,
genericResource: i.genericResource.WithNewBase(base).(*genericResource)}
}
// Resize resizes the image to the specified width and height using the specified resampling
// filter and returns the transformed image. If one of width or height is 0, the image aspect
// ratio is preserved.
func (i *Image) Resize(spec string) (*Image, error) {
return i.doWithImageConfig("resize", spec, func(src image.Image, conf imageConfig) (image.Image, error) {
return imaging.Resize(src, conf.Width, conf.Height, conf.Filter), nil
})
}
// Fit scales down the image using the specified resample filter to fit the specified
// maximum width and height.
func (i *Image) Fit(spec string) (*Image, error) {
return i.doWithImageConfig("fit", spec, func(src image.Image, conf imageConfig) (image.Image, error) {
return imaging.Fit(src, conf.Width, conf.Height, conf.Filter), nil
})
}
// Fill scales the image to the smallest possible size that will cover the specified dimensions,
// crops the resized image to the specified dimensions using the given anchor point.
// Space delimited config: 200x300 TopLeft
func (i *Image) Fill(spec string) (*Image, error) {
return i.doWithImageConfig("fill", spec, func(src image.Image, conf imageConfig) (image.Image, error) {
if conf.AnchorStr == smartCropIdentifier {
return smartCrop(src, conf.Width, conf.Height, conf.Anchor, conf.Filter)
}
return imaging.Fill(src, conf.Width, conf.Height, conf.Anchor, conf.Filter), nil
})
}
// Holds configuration to create a new image from an existing one, resize etc.
type imageConfig struct {
Action string
// Quality ranges from 1 to 100 inclusive, higher is better.
// This is only relevant for JPEG images.
// Default is 75.
Quality int
// Rotate rotates an image by the given angle counter-clockwise.
// The rotation will be performed first.
Rotate int
Width int
Height int
Filter imaging.ResampleFilter
FilterStr string
Anchor imaging.Anchor
AnchorStr string
}
func (i *Image) isJPEG() bool {
name := strings.ToLower(i.relTargetDirFile.file)
return strings.HasSuffix(name, ".jpg") || strings.HasSuffix(name, ".jpeg")
}
func (i *Image) doWithImageConfig(action, spec string, f func(src image.Image, conf imageConfig) (image.Image, error)) (*Image, error) {
conf, err := parseImageConfig(spec)
if err != nil {
return nil, err
}
conf.Action = action
if conf.Quality <= 0 && i.isJPEG() {
// We need a quality setting for all JPEGs
conf.Quality = i.imaging.Quality
}
if conf.FilterStr == "" {
conf.FilterStr = i.imaging.ResampleFilter
conf.Filter = imageFilters[conf.FilterStr]
}
if conf.AnchorStr == "" {
conf.AnchorStr = i.imaging.Anchor
if !strings.EqualFold(conf.AnchorStr, smartCropIdentifier) {
conf.Anchor = anchorPositions[conf.AnchorStr]
}
}
return i.spec.imageCache.getOrCreate(i, conf, func(resourceCacheFilename string) (*Image, error) {
ci := i.clone()
errOp := action
errPath := i.sourceFilename
ci.setBasePath(conf)
src, err := i.decodeSource()
if err != nil {
return nil, &os.PathError{Op: errOp, Path: errPath, Err: err}
}
if conf.Rotate != 0 {
// Rotate it before any scaling to get the dimensions correct.
src = imaging.Rotate(src, float64(conf.Rotate), color.Transparent)
}
converted, err := f(src, conf)
if err != nil {
return ci, &os.PathError{Op: errOp, Path: errPath, Err: err}
}
if i.format == imaging.PNG {
// Apply the colour palette from the source
if paletted, ok := src.(*image.Paletted); ok {
tmp := image.NewPaletted(converted.Bounds(), paletted.Palette)
draw.FloydSteinberg.Draw(tmp, tmp.Bounds(), converted, converted.Bounds().Min)
converted = tmp
}
}
b := converted.Bounds()
ci.config = image.Config{Width: b.Max.X, Height: b.Max.Y}
ci.configLoaded = true
return ci, i.encodeToDestinations(converted, conf, resourceCacheFilename, ci.targetFilename())
})
}
func (i imageConfig) key(format imaging.Format) string {
k := strconv.Itoa(i.Width) + "x" + strconv.Itoa(i.Height)
if i.Action != "" {
k += "_" + i.Action
}
if i.Quality > 0 {
k += "_q" + strconv.Itoa(i.Quality)
}
if i.Rotate != 0 {
k += "_r" + strconv.Itoa(i.Rotate)
}
anchor := i.AnchorStr
if anchor == smartCropIdentifier {
anchor = anchor + strconv.Itoa(smartCropVersionNumber)
}
k += "_" + i.FilterStr
if strings.EqualFold(i.Action, "fill") {
k += "_" + anchor
}
if v, ok := imageFormatsVersions[format]; ok {
k += "_" + strconv.Itoa(v)
}
if mainImageVersionNumber > 0 {
k += "_" + strconv.Itoa(mainImageVersionNumber)
}
return k
}
func newImageConfig(width, height, quality, rotate int, filter, anchor string) imageConfig {
var c imageConfig
c.Width = width
c.Height = height
c.Quality = quality
c.Rotate = rotate
if filter != "" {
filter = strings.ToLower(filter)
if v, ok := imageFilters[filter]; ok {
c.Filter = v
c.FilterStr = filter
}
}
if anchor != "" {
anchor = strings.ToLower(anchor)
if v, ok := anchorPositions[anchor]; ok {
c.Anchor = v
c.AnchorStr = anchor
}
}
return c
}
func parseImageConfig(config string) (imageConfig, error) {
var (
c imageConfig
err error
)
if config == "" {
return c, errors.New("image config cannot be empty")
}
parts := strings.Fields(config)
for _, part := range parts {
part = strings.ToLower(part)
if part == smartCropIdentifier {
c.AnchorStr = smartCropIdentifier
} else if pos, ok := anchorPositions[part]; ok {
c.Anchor = pos
c.AnchorStr = part
} else if filter, ok := imageFilters[part]; ok {
c.Filter = filter
c.FilterStr = part
} else if part[0] == 'q' {
c.Quality, err = strconv.Atoi(part[1:])
if err != nil {
return c, err
}
if c.Quality < 1 && c.Quality > 100 {
return c, errors.New("quality ranges from 1 to 100 inclusive")
}
} else if part[0] == 'r' {
c.Rotate, err = strconv.Atoi(part[1:])
if err != nil {
return c, err
}
} else if strings.Contains(part, "x") {
widthHeight := strings.Split(part, "x")
if len(widthHeight) <= 2 {
first := widthHeight[0]
if first != "" {
c.Width, err = strconv.Atoi(first)
if err != nil {
return c, err
}
}
if len(widthHeight) == 2 {
second := widthHeight[1]
if second != "" {
c.Height, err = strconv.Atoi(second)
if err != nil {
return c, err
}
}
}
} else {
return c, errors.New("invalid image dimensions")
}
}
}
if c.Width == 0 && c.Height == 0 {
return c, errors.New("must provide Width or Height")
}
return c, nil
}
func (i *Image) initConfig() error {
var err error
i.configInit.Do(func() {
if i.configLoaded {
return
}
var (
f ReadSeekCloser
config image.Config
)
f, err = i.ReadSeekCloser()
if err != nil {
return
}
defer f.Close()
config, _, err = image.DecodeConfig(f)
if err != nil {
return
}
i.config = config
})
if err != nil {
return fmt.Errorf("failed to load image config: %s", err)
}
return nil
}
func (i *Image) decodeSource() (image.Image, error) {
f, err := i.ReadSeekCloser()
if err != nil {
return nil, fmt.Errorf("failed to open image for decode: %s", err)
}
defer f.Close()
img, _, err := image.Decode(f)
return img, err
}
func (i *Image) copyToDestination(src string) error {
var res error
i.copyToDestinationInit.Do(func() {
target := i.targetFilename()
// Fast path:
// This is a processed version of the original.
// If it exists on destination with the same filename and file size, it is
// the same file, so no need to transfer it again.
if fi, err := i.spec.BaseFs.PublishFs.Stat(target); err == nil && fi.Size() == i.osFileInfo.Size() {
return
}
in, err := i.sourceFs().Open(src)
if err != nil {
res = err
return
}
defer in.Close()
out, err := openFileForWriting(i.spec.BaseFs.PublishFs, target)
if err != nil {
res = err
return
}
defer out.Close()
_, err = io.Copy(out, in)
if err != nil {
res = err
return
}
})
if res != nil {
return fmt.Errorf("failed to copy image to destination: %s", res)
}
return nil
}
func (i *Image) encodeToDestinations(img image.Image, conf imageConfig, resourceCacheFilename, targetFilename string) error {
file1, err := openFileForWriting(i.spec.BaseFs.PublishFs, targetFilename)
if err != nil {
return err
}
defer file1.Close()
var w io.Writer
if resourceCacheFilename != "" {
// Also save it to the image resource cache for later reuse.
file2, err := openFileForWriting(i.spec.BaseFs.Resources.Fs, resourceCacheFilename)
if err != nil {
return err
}
w = io.MultiWriter(file1, file2)
defer file2.Close()
} else {
w = file1
}
switch i.format {
case imaging.JPEG:
var rgba *image.RGBA
quality := conf.Quality
if nrgba, ok := img.(*image.NRGBA); ok {
if nrgba.Opaque() {
rgba = &image.RGBA{
Pix: nrgba.Pix,
Stride: nrgba.Stride,
Rect: nrgba.Rect,
}
}
}
if rgba != nil {
return jpeg.Encode(w, rgba, &jpeg.Options{Quality: quality})
} else {
return jpeg.Encode(w, img, &jpeg.Options{Quality: quality})
}
default:
return imaging.Encode(w, img, i.format)
}
}
func (i *Image) clone() *Image {
g := *i.genericResource
g.resourceContent = &resourceContent{}
return &Image{
imaging: i.imaging,
format: i.format,
genericResource: &g}
}
func (i *Image) setBasePath(conf imageConfig) {
i.relTargetDirFile = i.relTargetPathFromConfig(conf)
}
func (i *Image) relTargetPathFromConfig(conf imageConfig) dirFile {
p1, p2 := helpers.FileAndExt(i.relTargetDirFile.file)
idStr := fmt.Sprintf("_hu%s_%d", i.hash, i.osFileInfo.Size())
// Do not change for no good reason.
const md5Threshold = 100
key := conf.key(i.format)
// It is useful to have the key in clear text, but when nesting transforms, it
// can easily be too long to read, and maybe even too long
// for the different OSes to handle.
if len(p1)+len(idStr)+len(p2) > md5Threshold {
key = helpers.MD5String(p1 + key + p2)
huIdx := strings.Index(p1, "_hu")
if huIdx != -1 {
p1 = p1[:huIdx]
} else {
// This started out as a very long file name. Making it even longer
// could melt ice in the Arctic.
p1 = ""
}
} else if strings.Contains(p1, idStr) {
// On scaling an already scaled image, we get the file info from the original.
// Repeating the same info in the filename makes it stuttery for no good reason.
idStr = ""
}
return dirFile{
dir: i.relTargetDirFile.dir,
file: fmt.Sprintf("%s%s_%s%s", p1, idStr, key, p2),
}
}
func decodeImaging(m map[string]interface{}) (Imaging, error) {
var i Imaging
if err := mapstructure.WeakDecode(m, &i); err != nil {
return i, err
}
if i.Quality == 0 {
i.Quality = defaultJPEGQuality
} else if i.Quality < 0 || i.Quality > 100 {
return i, errors.New("JPEG quality must be a number between 1 and 100")
}
if i.Anchor == "" || strings.EqualFold(i.Anchor, smartCropIdentifier) {
i.Anchor = smartCropIdentifier
} else {
i.Anchor = strings.ToLower(i.Anchor)
if _, found := anchorPositions[i.Anchor]; !found {
return i, errors.New("invalid anchor value in imaging config")
}
}
if i.ResampleFilter == "" {
i.ResampleFilter = defaultResampleFilter
} else {
filter := strings.ToLower(i.ResampleFilter)
_, found := imageFilters[filter]
if !found {
return i, fmt.Errorf("%q is not a valid resample filter", filter)
}
i.ResampleFilter = filter
}
return i, nil
}
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