ref: d6ed17c60fd13c933347110c720afa09e04df1c8
dir: /resources/images/config.go/
// Copyright 2019 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 images import ( "errors" "fmt" "image/color" "strconv" "strings" "github.com/disintegration/gift" "github.com/mitchellh/mapstructure" ) const ( defaultJPEGQuality = 75 defaultResampleFilter = "box" defaultBgColor = "ffffff" ) var ( imageFormats = map[string]Format{ ".jpg": JPEG, ".jpeg": JPEG, ".png": PNG, ".tif": TIFF, ".tiff": TIFF, ".bmp": BMP, ".gif": GIF, } // Add or increment if changes to an image format's processing requires // re-generation. imageFormatsVersions = map[Format]int{ 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]gift.Anchor{ strings.ToLower("Center"): gift.CenterAnchor, strings.ToLower("TopLeft"): gift.TopLeftAnchor, strings.ToLower("Top"): gift.TopAnchor, strings.ToLower("TopRight"): gift.TopRightAnchor, strings.ToLower("Left"): gift.LeftAnchor, strings.ToLower("Right"): gift.RightAnchor, strings.ToLower("BottomLeft"): gift.BottomLeftAnchor, strings.ToLower("Bottom"): gift.BottomAnchor, strings.ToLower("BottomRight"): gift.BottomRightAnchor, } var imageFilters = map[string]gift.Resampling{ strings.ToLower("NearestNeighbor"): gift.NearestNeighborResampling, strings.ToLower("Box"): gift.BoxResampling, strings.ToLower("Linear"): gift.LinearResampling, strings.ToLower("Hermite"): hermiteResampling, strings.ToLower("MitchellNetravali"): mitchellNetravaliResampling, strings.ToLower("CatmullRom"): catmullRomResampling, strings.ToLower("BSpline"): bSplineResampling, strings.ToLower("Gaussian"): gaussianResampling, strings.ToLower("Lanczos"): gift.LanczosResampling, strings.ToLower("Hann"): hannResampling, strings.ToLower("Hamming"): hammingResampling, strings.ToLower("Blackman"): blackmanResampling, strings.ToLower("Bartlett"): bartlettResampling, strings.ToLower("Welch"): welchResampling, strings.ToLower("Cosine"): cosineResampling, } func ImageFormatFromExt(ext string) (Format, bool) { f, found := imageFormats[ext] return f, found } func DecodeConfig(m map[string]interface{}) (ImagingConfig, error) { var i Imaging var ic ImagingConfig if err := mapstructure.WeakDecode(m, &i); err != nil { return ic, err } if i.Quality == 0 { i.Quality = defaultJPEGQuality } else if i.Quality < 0 || i.Quality > 100 { return ic, errors.New("JPEG quality must be a number between 1 and 100") } if i.BgColor != "" { i.BgColor = strings.TrimPrefix(i.BgColor, "#") } else { i.BgColor = defaultBgColor } var err error ic.BgColor, err = hexStringToColor(i.BgColor) if err != nil { return ic, err } 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 ic, 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 ic, fmt.Errorf("%q is not a valid resample filter", filter) } i.ResampleFilter = filter } if strings.TrimSpace(i.Exif.IncludeFields) == "" && strings.TrimSpace(i.Exif.ExcludeFields) == "" { // Don't change this for no good reason. Please don't. i.Exif.ExcludeFields = "GPS|Exif|Exposure[M|P|B]|Contrast|Resolution|Sharp|JPEG|Metering|Sensing|Saturation|ColorSpace|Flash|WhiteBalance" } ic.Cfg = i return ic, nil } func DecodeImageConfig(action, config string, defaults Imaging) (ImageConfig, error) { var ( c ImageConfig err error ) c.Action = action 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] == '#' { c.BgColorStr = part[1:] c.BgColor, err = hexStringToColor(c.BgColorStr) if err != nil { return c, err } } 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") } } else if f, ok := ImageFormatFromExt("." + part); ok { c.TargetFormat = f } } if c.Width == 0 && c.Height == 0 { return c, errors.New("must provide Width or Height") } if c.FilterStr == "" { c.FilterStr = defaults.ResampleFilter c.Filter = imageFilters[c.FilterStr] } if c.AnchorStr == "" { c.AnchorStr = defaults.Anchor if !strings.EqualFold(c.AnchorStr, smartCropIdentifier) { c.Anchor = anchorPositions[c.AnchorStr] } } return c, nil } // ImageConfig holds configuration to create a new image from an existing one, resize etc. type ImageConfig struct { // This defines the output format of the output image. It defaults to the source format TargetFormat Format Action string // If set, this will be used as the key in filenames etc. Key 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 // Used to fill any transparency. // When set in site config, it's used when converting to a format that does // not support transparency. // When set per image operation, it's used even for formats that does support // transparency. BgColor color.Color BgColorStr string Width int Height int Filter gift.Resampling FilterStr string Anchor gift.Anchor AnchorStr string } func (i ImageConfig) GetKey(format Format) string { if i.Key != "" { return i.Action + "_" + i.Key } 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) } if i.BgColorStr != "" { k += "_bg" + i.BgColorStr } 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 } type ImagingConfig struct { BgColor color.Color // Config as provided by the user. Cfg Imaging } // 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 to use in resize operations.. ResampleFilter string // The anchor to use in Fill. Default is "smart", i.e. Smart Crop. Anchor string // Default color used in fill operations (e.g. "fff" for white). BgColor string Exif ExifConfig } type ExifConfig struct { // Regexp matching the Exif fields you want from the (massive) set of Exif info // available. As we cache this info to disk, this is for performance and // disk space reasons more than anything. // If you want it all, put ".*" in this config setting. // Note that if neither this or ExcludeFields is set, Hugo will return a small // default set. IncludeFields string // Regexp matching the Exif fields you want to exclude. This may be easier to use // than IncludeFields above, depending on what you want. ExcludeFields string // Hugo extracts the "photo taken" date/time into .Date by default. // Set this to true to turn it off. DisableDate bool // Hugo extracts the "photo taken where" (GPS latitude and longitude) into // .Long and .Lat. Set this to true to turn it off. DisableLatLong bool }