Merge pull request #12683 from ywk253100/200804_icon

Implement the icon API to get the icon of artifact
This commit is contained in:
Wenkai Yin(尹文开) 2020-08-15 09:18:34 +08:00 committed by GitHub
commit 6c168174bd
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GPG Key ID: 4AEE18F83AFDEB23
38 changed files with 2587 additions and 51 deletions

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@ -1206,6 +1206,27 @@ paths:
$ref: '#/responses/404'
'500':
$ref: '#/responses/500'
/icons/{digest}:
get:
summary: Get artifact icon
description: Get the artifact icon with the specified digest. As the original icon image is resized and encoded before returning, the parameter "digest" in the path doesn't match the hash of the returned content
tags:
- icon
operationId: getIcon
parameters:
- $ref: '#/parameters/requestId'
- $ref: '#/parameters/digest'
responses:
'200':
description: Success
schema:
$ref: '#/definitions/Icon'
'400':
$ref: '#/responses/400'
'404':
$ref: '#/responses/404'
'500':
$ref: '#/responses/500'
parameters:
query:
name: q
@ -1244,6 +1265,12 @@ parameters:
description: The reference of the artifact, can be digest or tag
required: true
type: string
digest:
name: digest
in: path
description: The digest of the resource
required: true
type: string
tagName:
name: tag_name
in: path
@ -1451,6 +1478,9 @@ definitions:
type: integer
format: int64
description: The size of the artifact
icon:
type: string
description: The digest of the icon
push_time:
type: string
format: date-time
@ -1919,3 +1949,12 @@ definitions:
type: boolean
default:
type: boolean
Icon:
type: object
properties:
content-type:
type: string
description: The content type of the icon
content:
type: string
description: The base64 encoded content of the icon

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@ -115,8 +115,6 @@ ALTER TABLE schedule DROP COLUMN IF EXISTS status;
UPDATE registry SET type = 'quay' WHERE type = 'quay-io';
ALTER TABLE artifact ADD COLUMN icon varchar(255);
CREATE TABLE IF NOT EXISTS data_migrations (
version int
);
@ -128,3 +126,18 @@ INSERT INTO data_migrations (version) VALUES (
END
);
ALTER TABLE schema_migrations DROP COLUMN IF EXISTS data_version;
ALTER TABLE artifact ADD COLUMN IF NOT EXISTS icon varchar(255);
UPDATE artifact
SET icon=(
CASE
WHEN type='IMAGE' THEN
'sha256:0048162a053eef4d4ce3fe7518615bef084403614f8bca43b40ae2e762e11e06'
WHEN type='CHART' THEN
'sha256:61cf3a178ff0f75bf08a25d96b75cf7355dc197749a9f128ed3ef34b0df05518'
WHEN type='CNAB' THEN
'sha256:089bdda265c14d8686111402c8ad629e8177a1ceb7dcd0f7f39b6480f623b3bd'
ELSE
'sha256:da834479c923584f4cbcdecc0dac61f32bef1d51e8aae598cf16bd154efab49f'
END);

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@ -8,6 +8,7 @@ COPY ./make/photon/core/entrypoint.sh /harbor/
COPY ./make/photon/core/harbor_core /harbor/
COPY ./src/core/views /harbor/views
COPY ./make/migrations /harbor/migrations
COPY ./icons /harbor/icons
RUN chown -R harbor:harbor /etc/pki/tls/certs \
&& chown harbor:harbor /harbor/entrypoint.sh && chmod u+x /harbor/entrypoint.sh \

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@ -21,6 +21,7 @@ import (
ps "github.com/goharbor/harbor/src/controller/artifact/processor"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
@ -57,6 +58,14 @@ type processor struct {
chartOperator chart.Operator
}
func (p *processor) AbstractMetadata(ctx context.Context, artifact *artifact.Artifact, manifest []byte) error {
if err := p.ManifestProcessor.AbstractMetadata(ctx, artifact, manifest); err != nil {
return err
}
artifact.Icon = icon.DigestOfIconChart
return nil
}
func (p *processor) AbstractAddition(ctx context.Context, artifact *artifact.Artifact, addition string) (*ps.Addition, error) {
if addition != AdditionTypeValues && addition != AdditionTypeReadme && addition != AdditionTypeDependencies {
return nil, errors.New(nil).WithCode(errors.BadRequestCode).

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@ -15,11 +15,14 @@
package chart
import (
"bytes"
"github.com/docker/distribution"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/pkg/artifact"
chartserver "github.com/goharbor/harbor/src/pkg/chart"
"github.com/goharbor/harbor/src/testing/mock"
"github.com/goharbor/harbor/src/testing/pkg/chart"
"github.com/goharbor/harbor/src/testing/pkg/registry"
v1 "github.com/opencontainers/image-spec/specs-go/v1"
@ -30,6 +33,33 @@ import (
"testing"
)
var (
chartManifest = `{"schemaVersion":2,"config":{"mediaType":"application/vnd.cncf.helm.config.v1+json","digest":"sha256:76a59ebef39013bf7b57e411629b569a5175590024f31eeaaa577a0f8da9e523","size":528},"layers":[{"mediaType":"application/tar+gzip","digest":"sha256:0bd64cfb958b68c71b46597e22185a41e784dc96e04090bc7d2a480b704c3b65","size":12607}]}`
chartYaml = `{
"name":"redis",
"home": "http://redis.io/",
"sources": [
"https://github.com/bitnami/bitnami-docker-redis"
],
"version": "3.2.5",
"description": "Open source, advanced key-value store. It is often referred to as a data structure server since keys can contain strings, hashes, lists, sets and sorted sets.",
"keywords": [
"redis",
"keyvalue",
"database"
],
"maintainers": [
{
"name": "bitnami-bot",
"email":"containers@bitnami.com"
}
],
"icon": "https://bitnami.com/assets/stacks/redis/img/redis-stack-220x234.png",
"apiVersion": "v1",
"appVersion": "4.0.9"
}`
)
type processorTestSuite struct {
suite.Suite
processor *processor
@ -46,41 +76,20 @@ func (p *processorTestSuite) SetupTest() {
p.processor.ManifestProcessor = &base.ManifestProcessor{RegCli: p.regCli}
}
func (p *processorTestSuite) TestAbstractMetadata() {
artifact := &artifact.Artifact{}
p.regCli.On("PullBlob", mock.Anything, mock.Anything).Return(0, ioutil.NopCloser(bytes.NewReader([]byte(chartYaml))), nil)
err := p.processor.AbstractMetadata(nil, artifact, []byte(chartManifest))
p.Require().Nil(err)
p.Equal(icon.DigestOfIconChart, artifact.Icon)
p.regCli.AssertExpectations(p.T())
}
func (p *processorTestSuite) TestAbstractAddition() {
// unknown addition
_, err := p.processor.AbstractAddition(nil, nil, "unknown_addition")
p.True(errors.IsErr(err, errors.BadRequestCode))
chartManifest := `{"schemaVersion":2,"config":{"mediaType":"application/vnd.cncf.helm.config.v1+json","digest":"sha256:76a59ebef39013bf7b57e411629b569a5175590024f31eeaaa577a0f8da9e523","size":528},"layers":[{"mediaType":"application/tar+gzip","digest":"sha256:0bd64cfb958b68c71b46597e22185a41e784dc96e04090bc7d2a480b704c3b65","size":12607}]}`
chartYaml := `{
name:redis,
home:http://redis.io/",
sources:[
https://github.com/bitnami/bitnami-docker-redis"
],
version:3.2.5",
description:Open source, advanced key-value store. It is often referred to as a data structure server since keys can contain strings, hashes, lists, sets and sorted sets.,
keywords:[
redis,
keyvalue,
database
],
maintainers:[
{
name:bitnami-bot,
email:containers@bitnami.com"
}
],
icon:https://bitnami.com/assets/stacks/redis/img/redis-stack-220x234.png",
apiVersion:v1,
appVersion:4.0.9
}`
chartDetails := &chartserver.VersionDetails{
Dependencies: []*helm_chart.Dependency{
{

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@ -19,6 +19,7 @@ import (
ps "github.com/goharbor/harbor/src/controller/artifact/processor"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
)
@ -46,6 +47,7 @@ type processor struct {
}
func (p *processor) AbstractMetadata(ctx context.Context, art *artifact.Artifact, manifest []byte) error {
art.Icon = icon.DigestOfIconCNAB
cfgManiDgt := ""
// try to get the digest of the manifest that the config layer is referenced by
for _, reference := range art.References {

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@ -17,6 +17,7 @@ package cnab
import (
"github.com/docker/distribution"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/testing/pkg/registry"
v1 "github.com/opencontainers/image-spec/specs-go/v1"
@ -98,6 +99,7 @@ func (p *processorTestSuite) TestAbstractMetadata() {
p.Len(art.ExtraAttrs, 7)
p.Equal("0.1.1", art.ExtraAttrs["version"].(string))
p.Equal("helloworld", art.ExtraAttrs["name"].(string))
p.Equal(icon.DigestOfIconCNAB, art.Icon)
}
func (p *processorTestSuite) TestGetArtifactType() {

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@ -20,23 +20,20 @@ import (
"regexp"
"strings"
"github.com/docker/distribution/manifest/schema2"
"github.com/goharbor/harbor/src/controller/icon"
// annotation parsers will be registered
"github.com/goharbor/harbor/src/controller/artifact/annotation"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/pkg/registry"
"github.com/docker/distribution/manifest/schema2"
v1 "github.com/opencontainers/image-spec/specs-go/v1"
)
const (
// ArtifactTypeUnknown defines the type for the unknown artifacts
ArtifactTypeUnknown = "UNKNOWN"
// DefaultIconDigest defines default icon layer digest
DefaultIconDigest = "sha256:da834479c923584f4cbcdecc0dac61f32bef1d51e8aae598cf16bd154efab49f"
)
var (
@ -126,11 +123,11 @@ func (d *defaultProcessor) AbstractMetadata(ctx context.Context, artifact *artif
}
if artifact.Icon == "" {
artifact.Icon = DefaultIconDigest
artifact.Icon = icon.DigestOfIconDefault
}
return nil
}
func (d *defaultProcessor) AbstractAddition(ctx context.Context, artifact *artifact.Artifact, addition string) (*Addition, error) {
// Addition not support for user-defined artifact yet.
// It will be support in the future.

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@ -16,6 +16,7 @@ package processor
import (
"context"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/pkg/distribution"
"github.com/goharbor/harbor/src/testing/mock"
v1 "github.com/opencontainers/image-spec/specs-go/v1"
@ -183,7 +184,7 @@ func (d *defaultProcessorTestSuite) TestAbstractMetadata() {
d.parser.On("Parse", context.TODO(), mock.AnythingOfType("*artifact.Artifact"), mock.AnythingOfType("[]byte")).Return(nil)
err = d.processor.AbstractMetadata(nil, art, content)
d.Require().Nil(err)
d.Equal(DefaultIconDigest, art.Icon)
d.Equal(icon.DigestOfIconDefault, art.Icon)
}
func TestDefaultProcessorTestSuite(t *testing.T) {

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@ -16,9 +16,11 @@ package image
import (
"context"
"github.com/docker/distribution/manifest/manifestlist"
"github.com/goharbor/harbor/src/controller/artifact/processor"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
v1 "github.com/opencontainers/image-spec/specs-go/v1"
@ -42,6 +44,14 @@ type indexProcessor struct {
*base.IndexProcessor
}
func (i *indexProcessor) AbstractMetadata(ctx context.Context, artifact *artifact.Artifact, manifest []byte) error {
if err := i.IndexProcessor.AbstractMetadata(ctx, artifact, manifest); err != nil {
return err
}
artifact.Icon = icon.DigestOfIconImage
return nil
}
func (i *indexProcessor) GetArtifactType(ctx context.Context, artifact *artifact.Artifact) string {
return ArtifactTypeImage
}

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@ -15,8 +15,11 @@
package image
import (
"github.com/stretchr/testify/suite"
"testing"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/stretchr/testify/suite"
)
type indexProcessTestSuite struct {
@ -28,6 +31,13 @@ func (i *indexProcessTestSuite) SetupTest() {
i.processor = &indexProcessor{}
}
func (i *indexProcessTestSuite) TestAbstractMetadata() {
artifact := &artifact.Artifact{}
err := i.processor.AbstractMetadata(nil, artifact, nil)
i.Require().Nil(err)
i.Equal(icon.DigestOfIconImage, artifact.Icon)
}
func (i *indexProcessTestSuite) TestGetArtifactType() {
i.Assert().Equal(ArtifactTypeImage, i.processor.GetArtifactType(nil, nil))
}

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@ -19,6 +19,7 @@ import (
"encoding/json"
"github.com/docker/distribution/manifest/schema1"
"github.com/goharbor/harbor/src/controller/artifact/processor"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
@ -45,6 +46,7 @@ func (m *manifestV1Processor) AbstractMetadata(ctx context.Context, artifact *ar
artifact.ExtraAttrs = map[string]interface{}{}
}
artifact.ExtraAttrs["architecture"] = mani.Architecture
artifact.Icon = icon.DigestOfIconImage
return nil
}

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@ -15,10 +15,12 @@
package image
import (
"testing"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/stretchr/testify/suite"
"testing"
)
type manifestV1ProcessorTestSuite struct {
@ -81,6 +83,7 @@ func (m *manifestV1ProcessorTestSuite) TestAbstractMetadata() {
err := m.processor.AbstractMetadata(nil, artifact, []byte(manifest))
m.Require().Nil(err)
m.Assert().Equal("amd64", artifact.ExtraAttrs["architecture"].(string))
m.Equal(icon.DigestOfIconImage, artifact.Icon)
}
func (m *manifestV1ProcessorTestSuite) TestAbstractAddition() {

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@ -17,9 +17,11 @@ package image
import (
"context"
"encoding/json"
"github.com/docker/distribution/manifest/schema2"
"github.com/goharbor/harbor/src/controller/artifact/processor"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/lib/log"
"github.com/goharbor/harbor/src/pkg/artifact"
@ -51,6 +53,14 @@ type manifestV2Processor struct {
*base.ManifestProcessor
}
func (m *manifestV2Processor) AbstractMetadata(ctx context.Context, artifact *artifact.Artifact, manifest []byte) error {
if err := m.ManifestProcessor.AbstractMetadata(ctx, artifact, manifest); err != nil {
return err
}
artifact.Icon = icon.DigestOfIconImage
return nil
}
func (m *manifestV2Processor) AbstractAddition(ctx context.Context, artifact *artifact.Artifact, addition string) (*processor.Addition, error) {
if addition != AdditionTypeBuildHistory {
return nil, errors.New(nil).WithCode(errors.BadRequestCode).

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@ -15,16 +15,20 @@
package image
import (
"github.com/docker/distribution"
"github.com/docker/distribution/manifest/schema2"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/testing/pkg/registry"
"github.com/stretchr/testify/suite"
"bytes"
"io/ioutil"
"strings"
"testing"
"github.com/docker/distribution"
"github.com/docker/distribution/manifest/schema2"
"github.com/goharbor/harbor/src/controller/artifact/processor/base"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/testing/mock"
"github.com/goharbor/harbor/src/testing/pkg/registry"
"github.com/stretchr/testify/suite"
)
var (
@ -135,6 +139,15 @@ func (m *manifestV2ProcessorTestSuite) SetupTest() {
m.processor.ManifestProcessor = &base.ManifestProcessor{RegCli: m.regCli}
}
func (m *manifestV2ProcessorTestSuite) TestAbstractMetadata() {
artifact := &artifact.Artifact{}
m.regCli.On("PullBlob", mock.Anything, mock.Anything).Return(0, ioutil.NopCloser(bytes.NewReader([]byte(config))), nil)
err := m.processor.AbstractMetadata(nil, artifact, []byte(manifest))
m.Require().Nil(err)
m.Equal(icon.DigestOfIconImage, artifact.Icon)
m.regCli.AssertExpectations(m.T())
}
func (m *manifestV2ProcessorTestSuite) TestAbstractAddition() {
// unknown addition
_, err := m.processor.AbstractAddition(nil, nil, "unknown_addition")

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@ -0,0 +1,144 @@
// Copyright Project Harbor Authors
//
// 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 icon
import (
"bytes"
"context"
"encoding/base64"
"image"
// import the gif format
_ "image/gif"
// import the jpeg format
_ "image/jpeg"
"image/png"
"io"
"os"
"sync"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/lib/q"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/pkg/registry"
"github.com/nfnt/resize"
)
// const definitions
const (
DigestOfIconImage = "sha256:0048162a053eef4d4ce3fe7518615bef084403614f8bca43b40ae2e762e11e06"
DigestOfIconChart = "sha256:61cf3a178ff0f75bf08a25d96b75cf7355dc197749a9f128ed3ef34b0df05518"
DigestOfIconCNAB = "sha256:089bdda265c14d8686111402c8ad629e8177a1ceb7dcd0f7f39b6480f623b3bd"
DigestOfIconDefault = "sha256:da834479c923584f4cbcdecc0dac61f32bef1d51e8aae598cf16bd154efab49f"
)
var (
builtInIcons = map[string]string{
DigestOfIconImage: "./icons/image.png",
DigestOfIconChart: "./icons/chart.png",
DigestOfIconCNAB: "./icons/cnab.png",
DigestOfIconDefault: "./icons/default.png",
}
// Ctl is a global icon controller instance
Ctl = NewController()
)
// Icon model for artifact icon
type Icon struct {
ContentType string
Content string // base64 encoded
}
// Controller defines the operations related with icon
type Controller interface {
// Get the icon specified by digest
Get(ctx context.Context, digest string) (icon *Icon, err error)
}
// NewController creates a new instance of the icon controller
func NewController() Controller {
return &controller{
artMgr: artifact.Mgr,
regCli: registry.Cli,
cache: sync.Map{},
}
}
type controller struct {
artMgr artifact.Manager
regCli registry.Client
cache sync.Map
}
func (c *controller) Get(ctx context.Context, digest string) (*Icon, error) {
ic, exist := c.cache.Load(digest)
if exist {
return ic.(*Icon), nil
}
var (
iconFile io.ReadCloser
err error
)
// for the fixed icons: image, helm chart, CNAB and unknown
if path, exist := builtInIcons[digest]; exist {
iconFile, err = os.Open(path)
if err != nil {
return nil, err
}
defer iconFile.Close()
} else {
// read icon from blob
artifacts, err := c.artMgr.List(ctx, &q.Query{
Keywords: map[string]interface{}{
"Icon": digest,
},
})
if err != nil {
return nil, err
}
if len(artifacts) == 0 {
return nil, errors.New(nil).WithCode(errors.NotFoundCode).
WithMessage("the icon %s not found", digest)
}
_, iconFile, err = c.regCli.PullBlob(artifacts[0].RepositoryName, digest)
if err != nil {
return nil, err
}
defer iconFile.Close()
}
img, _, err := image.Decode(iconFile)
if err != nil {
return nil, err
}
// resize the icon to 50x50
img = resize.Thumbnail(50, 50, img, resize.NearestNeighbor)
// encode the resized icon to png
buf := &bytes.Buffer{}
if err = png.Encode(buf, img); err != nil {
return nil, err
}
icon := &Icon{
ContentType: "image/png",
Content: base64.StdEncoding.EncodeToString(buf.Bytes()),
}
c.cache.Store(digest, icon)
return icon, nil
}

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@ -0,0 +1,82 @@
// Copyright Project Harbor Authors
//
// 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 icon
import (
"encoding/base64"
"io/ioutil"
"strings"
"testing"
"github.com/goharbor/harbor/src/lib/errors"
"github.com/goharbor/harbor/src/pkg/artifact"
"github.com/goharbor/harbor/src/testing/mock"
artifact_testing "github.com/goharbor/harbor/src/testing/pkg/artifact"
"github.com/goharbor/harbor/src/testing/pkg/registry"
"github.com/stretchr/testify/suite"
)
var (
// base64 encoded png icon for testing
icon = "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"
)
type controllerTestSuite struct {
suite.Suite
controller Controller
argMgr *artifact_testing.FakeManager
regCli *registry.FakeClient
}
func (c *controllerTestSuite) SetupTest() {
c.argMgr = &artifact_testing.FakeManager{}
c.regCli = &registry.FakeClient{}
c.controller = &controller{
artMgr: c.argMgr,
regCli: c.regCli,
}
}
func (c *controllerTestSuite) TestGet() {
// not found
c.argMgr.On("List", mock.Anything, mock.Anything).Return(nil, nil)
_, err := c.controller.Get(nil, "unknown")
c.Require().NotNil(err)
c.True(errors.IsNotFoundErr(err))
c.argMgr.AssertExpectations(c.T())
// reset mocks
c.SetupTest()
// read icon from blob
c.argMgr.On("List", mock.Anything, mock.Anything).Return([]*artifact.Artifact{
{
RepositoryName: "library/hello-world",
},
}, nil)
blob := ioutil.NopCloser(base64.NewDecoder(base64.StdEncoding, strings.NewReader(icon)))
c.regCli.On("PullBlob", mock.Anything, mock.Anything).Return(0, blob, nil)
icon, err := c.controller.Get(nil, "sha256:364feec11702f7ee079ba81da723438373afb0921f3646e9e5015406ee150986")
c.Require().Nil(err)
c.Require().NotNil(icon)
c.Equal("image/png", icon.ContentType)
c.NotEmpty(icon.Content)
c.argMgr.AssertExpectations(c.T())
c.regCli.AssertExpectations(c.T())
}
func TestControllerTestSuite(t *testing.T) {
suite.Run(t, &controllerTestSuite{})
}

View File

@ -52,6 +52,7 @@ require (
github.com/mattn/go-runewidth v0.0.4 // indirect
github.com/miekg/pkcs11 v0.0.0-20170220202408-7283ca79f35e // indirect
github.com/ncw/swift v1.0.49 // indirect
github.com/nfnt/resize v0.0.0-20180221191011-83c6a9932646
github.com/olekukonko/tablewriter v0.0.1
github.com/opencontainers/go-digest v1.0.0-rc1
github.com/opencontainers/image-spec v1.0.1

View File

@ -594,6 +594,8 @@ github.com/ncw/swift v1.0.49 h1:eQaKIjSt/PXLKfYgzg01nevmO+CMXfXGRhB1gOhDs7E=
github.com/ncw/swift v1.0.49/go.mod h1:23YIA4yWVnGwv2dQlN4bB7egfYX6YLn0Yo/S6zZO/ZM=
github.com/neo4j-drivers/gobolt v1.7.4/go.mod h1:O9AUbip4Dgre+CD3p40dnMD4a4r52QBIfblg5k7CTbE=
github.com/neo4j/neo4j-go-driver v1.7.4/go.mod h1:aPO0vVr+WnhEJne+FgFjfsjzAnssPFLucHgGZ76Zb/U=
github.com/nfnt/resize v0.0.0-20180221191011-83c6a9932646 h1:zYyBkD/k9seD2A7fsi6Oo2LfFZAehjjQMERAvZLEDnQ=
github.com/nfnt/resize v0.0.0-20180221191011-83c6a9932646/go.mod h1:jpp1/29i3P1S/RLdc7JQKbRpFeM1dOBd8T9ki5s+AY8=
github.com/oklog/ulid v1.3.1/go.mod h1:CirwcVhetQ6Lv90oh/F+FBtV6XMibvdAFo93nm5qn4U=
github.com/olekukonko/tablewriter v0.0.0-20170122224234-a0225b3f23b5/go.mod h1:vsDQFd/mU46D+Z4whnwzcISnGGzXWMclvtLoiIKAKIo=
github.com/olekukonko/tablewriter v0.0.1 h1:b3iUnf1v+ppJiOfNX4yxxqfWKMQPZR5yoh8urCTFX88=

View File

@ -36,11 +36,11 @@ type Artifact struct {
RepositoryName string `orm:"column(repository_name)"`
Digest string `orm:"column(digest)"`
Size int64 `orm:"column(size)"`
Icon string `orm:"column(icon)"`
PushTime time.Time `orm:"column(push_time)"`
PullTime time.Time `orm:"column(pull_time)"`
ExtraAttrs string `orm:"column(extra_attrs)"` // json string
Annotations string `orm:"column(annotations);type(jsonb)"` // json string
Icon string `orm:"column(icon)"` // icon layer digest
}
// TableName for artifact

View File

@ -38,12 +38,12 @@ type Artifact struct {
RepositoryName string `json:"repository_name"`
Digest string `json:"digest"`
Size int64 `json:"size"`
Icon string `json:"icon"`
PushTime time.Time `json:"push_time"`
PullTime time.Time `json:"pull_time"`
ExtraAttrs map[string]interface{} `json:"extra_attrs"` // only contains the simple attributes specific for the different artifact type, most of them should come from the config layer
Annotations map[string]string `json:"annotations"`
References []*Reference `json:"references"` // child artifacts referenced by the parent artifact if the artifact is an index
Icon string `json:"icon"` // icon layer digest
}
// IsImageIndex returns true when artifact is image index
@ -63,6 +63,7 @@ func (a *Artifact) From(art *dao.Artifact) {
a.RepositoryName = art.RepositoryName
a.Digest = art.Digest
a.Size = art.Size
a.Icon = art.Icon
a.PushTime = art.PushTime
a.PullTime = art.PullTime
a.ExtraAttrs = map[string]interface{}{}
@ -91,6 +92,7 @@ func (a *Artifact) To() *dao.Artifact {
RepositoryName: a.RepositoryName,
Digest: a.Digest,
Size: a.Size,
Icon: a.Icon,
PushTime: a.PushTime,
PullTime: a.PullTime,
}

View File

@ -35,6 +35,7 @@ func New() http.Handler {
ScanAPI: newScanAPI(),
ProjectAPI: newProjectAPI(),
PreheatAPI: newPreheatAPI(),
IconAPI: newIconAPI(),
})
if err != nil {
log.Fatal(err)

View File

@ -0,0 +1,47 @@
// Copyright Project Harbor Authors
//
// 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 handler
import (
"context"
"github.com/go-openapi/runtime/middleware"
"github.com/goharbor/harbor/src/controller/icon"
"github.com/goharbor/harbor/src/server/v2.0/models"
operation "github.com/goharbor/harbor/src/server/v2.0/restapi/operations/icon"
)
func newIconAPI() *iconAPI {
return &iconAPI{
ctl: icon.Ctl,
}
}
type iconAPI struct {
BaseAPI
ctl icon.Controller
}
func (i *iconAPI) GetIcon(ctx context.Context, params operation.GetIconParams) middleware.Responder {
icon, err := i.ctl.Get(ctx, params.Digest)
if err != nil {
return i.SendError(ctx, err)
}
return operation.NewGetIconOK().WithPayload(&models.Icon{
Content: icon.Content,
ContentType: icon.ContentType,
})
}

View File

@ -40,6 +40,7 @@ func (a *Artifact) ToSwagger() *models.Artifact {
RepositoryID: a.RepositoryID,
Digest: a.Digest,
Size: a.Size,
Icon: a.Icon,
PullTime: strfmt.DateTime(a.PullTime),
PushTime: strfmt.DateTime(a.PushTime),
ExtraAttrs: a.ExtraAttrs,

7
src/vendor/github.com/nfnt/resize/.travis.yml generated vendored Normal file
View File

@ -0,0 +1,7 @@
language: go
go:
- "1.x"
- "1.1"
- "1.4"
- "1.10"

13
src/vendor/github.com/nfnt/resize/LICENSE generated vendored Normal file
View File

@ -0,0 +1,13 @@
Copyright (c) 2012, Jan Schlicht <jan.schlicht@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.

151
src/vendor/github.com/nfnt/resize/README.md generated vendored Normal file
View File

@ -0,0 +1,151 @@
# This package is no longer being updated! Please look for alternatives if that bothers you.
Resize
======
Image resizing for the [Go programming language](http://golang.org) with common interpolation methods.
[![Build Status](https://travis-ci.org/nfnt/resize.svg)](https://travis-ci.org/nfnt/resize)
Installation
------------
```bash
$ go get github.com/nfnt/resize
```
It's that easy!
Usage
-----
This package needs at least Go 1.1. Import package with
```go
import "github.com/nfnt/resize"
```
The resize package provides 2 functions:
* `resize.Resize` creates a scaled image with new dimensions (`width`, `height`) using the interpolation function `interp`.
If either `width` or `height` is set to 0, it will be set to an aspect ratio preserving value.
* `resize.Thumbnail` downscales an image preserving its aspect ratio to the maximum dimensions (`maxWidth`, `maxHeight`).
It will return the original image if original sizes are smaller than the provided dimensions.
```go
resize.Resize(width, height uint, img image.Image, interp resize.InterpolationFunction) image.Image
resize.Thumbnail(maxWidth, maxHeight uint, img image.Image, interp resize.InterpolationFunction) image.Image
```
The provided interpolation functions are (from fast to slow execution time)
- `NearestNeighbor`: [Nearest-neighbor interpolation](http://en.wikipedia.org/wiki/Nearest-neighbor_interpolation)
- `Bilinear`: [Bilinear interpolation](http://en.wikipedia.org/wiki/Bilinear_interpolation)
- `Bicubic`: [Bicubic interpolation](http://en.wikipedia.org/wiki/Bicubic_interpolation)
- `MitchellNetravali`: [Mitchell-Netravali interpolation](http://dl.acm.org/citation.cfm?id=378514)
- `Lanczos2`: [Lanczos resampling](http://en.wikipedia.org/wiki/Lanczos_resampling) with a=2
- `Lanczos3`: [Lanczos resampling](http://en.wikipedia.org/wiki/Lanczos_resampling) with a=3
Which of these methods gives the best results depends on your use case.
Sample usage:
```go
package main
import (
"github.com/nfnt/resize"
"image/jpeg"
"log"
"os"
)
func main() {
// open "test.jpg"
file, err := os.Open("test.jpg")
if err != nil {
log.Fatal(err)
}
// decode jpeg into image.Image
img, err := jpeg.Decode(file)
if err != nil {
log.Fatal(err)
}
file.Close()
// resize to width 1000 using Lanczos resampling
// and preserve aspect ratio
m := resize.Resize(1000, 0, img, resize.Lanczos3)
out, err := os.Create("test_resized.jpg")
if err != nil {
log.Fatal(err)
}
defer out.Close()
// write new image to file
jpeg.Encode(out, m, nil)
}
```
Caveats
-------
* Optimized access routines are used for `image.RGBA`, `image.NRGBA`, `image.RGBA64`, `image.NRGBA64`, `image.YCbCr`, `image.Gray`, and `image.Gray16` types. All other image types are accessed in a generic way that will result in slow processing speed.
* JPEG images are stored in `image.YCbCr`. This image format stores data in a way that will decrease processing speed. A resize may be up to 2 times slower than with `image.RGBA`.
Downsizing Samples
-------
Downsizing is not as simple as it might look like. Images have to be filtered before they are scaled down, otherwise aliasing might occur.
Filtering is highly subjective: Applying too much will blur the whole image, too little will make aliasing become apparent.
Resize tries to provide sane defaults that should suffice in most cases.
### Artificial sample
Original image
![Rings](http://nfnt.github.com/img/rings_lg_orig.png)
<table>
<tr>
<th><img src="http://nfnt.github.com/img/rings_300_NearestNeighbor.png" /><br>Nearest-Neighbor</th>
<th><img src="http://nfnt.github.com/img/rings_300_Bilinear.png" /><br>Bilinear</th>
</tr>
<tr>
<th><img src="http://nfnt.github.com/img/rings_300_Bicubic.png" /><br>Bicubic</th>
<th><img src="http://nfnt.github.com/img/rings_300_MitchellNetravali.png" /><br>Mitchell-Netravali</th>
</tr>
<tr>
<th><img src="http://nfnt.github.com/img/rings_300_Lanczos2.png" /><br>Lanczos2</th>
<th><img src="http://nfnt.github.com/img/rings_300_Lanczos3.png" /><br>Lanczos3</th>
</tr>
</table>
### Real-Life sample
Original image
![Original](http://nfnt.github.com/img/IMG_3694_720.jpg)
<table>
<tr>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_NearestNeighbor.png" /><br>Nearest-Neighbor</th>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_Bilinear.png" /><br>Bilinear</th>
</tr>
<tr>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_Bicubic.png" /><br>Bicubic</th>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_MitchellNetravali.png" /><br>Mitchell-Netravali</th>
</tr>
<tr>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_Lanczos2.png" /><br>Lanczos2</th>
<th><img src="http://nfnt.github.com/img/IMG_3694_300_Lanczos3.png" /><br>Lanczos3</th>
</tr>
</table>
License
-------
Copyright (c) 2012 Jan Schlicht <janschlicht@gmail.com>
Resize is released under a MIT style license.

438
src/vendor/github.com/nfnt/resize/converter.go generated vendored Normal file
View File

@ -0,0 +1,438 @@
/*
Copyright (c) 2012, Jan Schlicht <jan.schlicht@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
package resize
import "image"
// Keep value in [0,255] range.
func clampUint8(in int32) uint8 {
// casting a negative int to an uint will result in an overflown
// large uint. this behavior will be exploited here and in other functions
// to achieve a higher performance.
if uint32(in) < 256 {
return uint8(in)
}
if in > 255 {
return 255
}
return 0
}
// Keep value in [0,65535] range.
func clampUint16(in int64) uint16 {
if uint64(in) < 65536 {
return uint16(in)
}
if in > 65535 {
return 65535
}
return 0
}
func resizeGeneric(in image.Image, out *image.RGBA64, scale float64, coeffs []int32, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]int64
var sum int64
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case xi < 0:
xi = 0
case xi >= maxX:
xi = maxX
}
r, g, b, a := in.At(xi+in.Bounds().Min.X, x+in.Bounds().Min.Y).RGBA()
rgba[0] += int64(coeff) * int64(r)
rgba[1] += int64(coeff) * int64(g)
rgba[2] += int64(coeff) * int64(b)
rgba[3] += int64(coeff) * int64(a)
sum += int64(coeff)
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := clampUint16(rgba[0] / sum)
out.Pix[offset+0] = uint8(value >> 8)
out.Pix[offset+1] = uint8(value)
value = clampUint16(rgba[1] / sum)
out.Pix[offset+2] = uint8(value >> 8)
out.Pix[offset+3] = uint8(value)
value = clampUint16(rgba[2] / sum)
out.Pix[offset+4] = uint8(value >> 8)
out.Pix[offset+5] = uint8(value)
value = clampUint16(rgba[3] / sum)
out.Pix[offset+6] = uint8(value >> 8)
out.Pix[offset+7] = uint8(value)
}
}
}
func resizeRGBA(in *image.RGBA, out *image.RGBA, scale float64, coeffs []int16, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]int32
var sum int32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 4
case xi >= maxX:
xi = 4 * maxX
default:
xi = 0
}
rgba[0] += int32(coeff) * int32(row[xi+0])
rgba[1] += int32(coeff) * int32(row[xi+1])
rgba[2] += int32(coeff) * int32(row[xi+2])
rgba[3] += int32(coeff) * int32(row[xi+3])
sum += int32(coeff)
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*4
out.Pix[xo+0] = clampUint8(rgba[0] / sum)
out.Pix[xo+1] = clampUint8(rgba[1] / sum)
out.Pix[xo+2] = clampUint8(rgba[2] / sum)
out.Pix[xo+3] = clampUint8(rgba[3] / sum)
}
}
}
func resizeNRGBA(in *image.NRGBA, out *image.RGBA, scale float64, coeffs []int16, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]int32
var sum int32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 4
case xi >= maxX:
xi = 4 * maxX
default:
xi = 0
}
// Forward alpha-premultiplication
a := int32(row[xi+3])
r := int32(row[xi+0]) * a
r /= 0xff
g := int32(row[xi+1]) * a
g /= 0xff
b := int32(row[xi+2]) * a
b /= 0xff
rgba[0] += int32(coeff) * r
rgba[1] += int32(coeff) * g
rgba[2] += int32(coeff) * b
rgba[3] += int32(coeff) * a
sum += int32(coeff)
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*4
out.Pix[xo+0] = clampUint8(rgba[0] / sum)
out.Pix[xo+1] = clampUint8(rgba[1] / sum)
out.Pix[xo+2] = clampUint8(rgba[2] / sum)
out.Pix[xo+3] = clampUint8(rgba[3] / sum)
}
}
}
func resizeRGBA64(in *image.RGBA64, out *image.RGBA64, scale float64, coeffs []int32, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]int64
var sum int64
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 8
case xi >= maxX:
xi = 8 * maxX
default:
xi = 0
}
rgba[0] += int64(coeff) * (int64(row[xi+0])<<8 | int64(row[xi+1]))
rgba[1] += int64(coeff) * (int64(row[xi+2])<<8 | int64(row[xi+3]))
rgba[2] += int64(coeff) * (int64(row[xi+4])<<8 | int64(row[xi+5]))
rgba[3] += int64(coeff) * (int64(row[xi+6])<<8 | int64(row[xi+7]))
sum += int64(coeff)
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := clampUint16(rgba[0] / sum)
out.Pix[xo+0] = uint8(value >> 8)
out.Pix[xo+1] = uint8(value)
value = clampUint16(rgba[1] / sum)
out.Pix[xo+2] = uint8(value >> 8)
out.Pix[xo+3] = uint8(value)
value = clampUint16(rgba[2] / sum)
out.Pix[xo+4] = uint8(value >> 8)
out.Pix[xo+5] = uint8(value)
value = clampUint16(rgba[3] / sum)
out.Pix[xo+6] = uint8(value >> 8)
out.Pix[xo+7] = uint8(value)
}
}
}
func resizeNRGBA64(in *image.NRGBA64, out *image.RGBA64, scale float64, coeffs []int32, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]int64
var sum int64
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 8
case xi >= maxX:
xi = 8 * maxX
default:
xi = 0
}
// Forward alpha-premultiplication
a := int64(uint16(row[xi+6])<<8 | uint16(row[xi+7]))
r := int64(uint16(row[xi+0])<<8|uint16(row[xi+1])) * a
r /= 0xffff
g := int64(uint16(row[xi+2])<<8|uint16(row[xi+3])) * a
g /= 0xffff
b := int64(uint16(row[xi+4])<<8|uint16(row[xi+5])) * a
b /= 0xffff
rgba[0] += int64(coeff) * r
rgba[1] += int64(coeff) * g
rgba[2] += int64(coeff) * b
rgba[3] += int64(coeff) * a
sum += int64(coeff)
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := clampUint16(rgba[0] / sum)
out.Pix[xo+0] = uint8(value >> 8)
out.Pix[xo+1] = uint8(value)
value = clampUint16(rgba[1] / sum)
out.Pix[xo+2] = uint8(value >> 8)
out.Pix[xo+3] = uint8(value)
value = clampUint16(rgba[2] / sum)
out.Pix[xo+4] = uint8(value >> 8)
out.Pix[xo+5] = uint8(value)
value = clampUint16(rgba[3] / sum)
out.Pix[xo+6] = uint8(value >> 8)
out.Pix[xo+7] = uint8(value)
}
}
}
func resizeGray(in *image.Gray, out *image.Gray, scale float64, coeffs []int16, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[(x-newBounds.Min.X)*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var gray int32
var sum int32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case xi < 0:
xi = 0
case xi >= maxX:
xi = maxX
}
gray += int32(coeff) * int32(row[xi])
sum += int32(coeff)
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x - newBounds.Min.X)
out.Pix[offset] = clampUint8(gray / sum)
}
}
}
func resizeGray16(in *image.Gray16, out *image.Gray16, scale float64, coeffs []int32, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var gray int64
var sum int64
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 2
case xi >= maxX:
xi = 2 * maxX
default:
xi = 0
}
gray += int64(coeff) * int64(uint16(row[xi+0])<<8|uint16(row[xi+1]))
sum += int64(coeff)
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*2
value := clampUint16(gray / sum)
out.Pix[offset+0] = uint8(value >> 8)
out.Pix[offset+1] = uint8(value)
}
}
}
func resizeYCbCr(in *ycc, out *ycc, scale float64, coeffs []int16, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var p [3]int32
var sum int32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
coeff := coeffs[ci+i]
if coeff != 0 {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 3
case xi >= maxX:
xi = 3 * maxX
default:
xi = 0
}
p[0] += int32(coeff) * int32(row[xi+0])
p[1] += int32(coeff) * int32(row[xi+1])
p[2] += int32(coeff) * int32(row[xi+2])
sum += int32(coeff)
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*3
out.Pix[xo+0] = clampUint8(p[0] / sum)
out.Pix[xo+1] = clampUint8(p[1] / sum)
out.Pix[xo+2] = clampUint8(p[2] / sum)
}
}
}
func nearestYCbCr(in *ycc, out *ycc, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var p [3]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 3
case xi >= maxX:
xi = 3 * maxX
default:
xi = 0
}
p[0] += float32(row[xi+0])
p[1] += float32(row[xi+1])
p[2] += float32(row[xi+2])
sum++
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*3
out.Pix[xo+0] = floatToUint8(p[0] / sum)
out.Pix[xo+1] = floatToUint8(p[1] / sum)
out.Pix[xo+2] = floatToUint8(p[2] / sum)
}
}
}

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src/vendor/github.com/nfnt/resize/filters.go generated vendored Normal file
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/*
Copyright (c) 2012, Jan Schlicht <jan.schlicht@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
package resize
import (
"math"
)
func nearest(in float64) float64 {
if in >= -0.5 && in < 0.5 {
return 1
}
return 0
}
func linear(in float64) float64 {
in = math.Abs(in)
if in <= 1 {
return 1 - in
}
return 0
}
func cubic(in float64) float64 {
in = math.Abs(in)
if in <= 1 {
return in*in*(1.5*in-2.5) + 1.0
}
if in <= 2 {
return in*(in*(2.5-0.5*in)-4.0) + 2.0
}
return 0
}
func mitchellnetravali(in float64) float64 {
in = math.Abs(in)
if in <= 1 {
return (7.0*in*in*in - 12.0*in*in + 5.33333333333) * 0.16666666666
}
if in <= 2 {
return (-2.33333333333*in*in*in + 12.0*in*in - 20.0*in + 10.6666666667) * 0.16666666666
}
return 0
}
func sinc(x float64) float64 {
x = math.Abs(x) * math.Pi
if x >= 1.220703e-4 {
return math.Sin(x) / x
}
return 1
}
func lanczos2(in float64) float64 {
if in > -2 && in < 2 {
return sinc(in) * sinc(in*0.5)
}
return 0
}
func lanczos3(in float64) float64 {
if in > -3 && in < 3 {
return sinc(in) * sinc(in*0.3333333333333333)
}
return 0
}
// range [-256,256]
func createWeights8(dy, filterLength int, blur, scale float64, kernel func(float64) float64) ([]int16, []int, int) {
filterLength = filterLength * int(math.Max(math.Ceil(blur*scale), 1))
filterFactor := math.Min(1./(blur*scale), 1)
coeffs := make([]int16, dy*filterLength)
start := make([]int, dy)
for y := 0; y < dy; y++ {
interpX := scale*(float64(y)+0.5) - 0.5
start[y] = int(interpX) - filterLength/2 + 1
interpX -= float64(start[y])
for i := 0; i < filterLength; i++ {
in := (interpX - float64(i)) * filterFactor
coeffs[y*filterLength+i] = int16(kernel(in) * 256)
}
}
return coeffs, start, filterLength
}
// range [-65536,65536]
func createWeights16(dy, filterLength int, blur, scale float64, kernel func(float64) float64) ([]int32, []int, int) {
filterLength = filterLength * int(math.Max(math.Ceil(blur*scale), 1))
filterFactor := math.Min(1./(blur*scale), 1)
coeffs := make([]int32, dy*filterLength)
start := make([]int, dy)
for y := 0; y < dy; y++ {
interpX := scale*(float64(y)+0.5) - 0.5
start[y] = int(interpX) - filterLength/2 + 1
interpX -= float64(start[y])
for i := 0; i < filterLength; i++ {
in := (interpX - float64(i)) * filterFactor
coeffs[y*filterLength+i] = int32(kernel(in) * 65536)
}
}
return coeffs, start, filterLength
}
func createWeightsNearest(dy, filterLength int, blur, scale float64) ([]bool, []int, int) {
filterLength = filterLength * int(math.Max(math.Ceil(blur*scale), 1))
filterFactor := math.Min(1./(blur*scale), 1)
coeffs := make([]bool, dy*filterLength)
start := make([]int, dy)
for y := 0; y < dy; y++ {
interpX := scale*(float64(y)+0.5) - 0.5
start[y] = int(interpX) - filterLength/2 + 1
interpX -= float64(start[y])
for i := 0; i < filterLength; i++ {
in := (interpX - float64(i)) * filterFactor
if in >= -0.5 && in < 0.5 {
coeffs[y*filterLength+i] = true
} else {
coeffs[y*filterLength+i] = false
}
}
}
return coeffs, start, filterLength
}

318
src/vendor/github.com/nfnt/resize/nearest.go generated vendored Normal file
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/*
Copyright (c) 2014, Charlie Vieth <charlie.vieth@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
package resize
import "image"
func floatToUint8(x float32) uint8 {
// Nearest-neighbor values are always
// positive no need to check lower-bound.
if x > 0xfe {
return 0xff
}
return uint8(x)
}
func floatToUint16(x float32) uint16 {
if x > 0xfffe {
return 0xffff
}
return uint16(x)
}
func nearestGeneric(in image.Image, out *image.RGBA64, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case xi < 0:
xi = 0
case xi >= maxX:
xi = maxX
}
r, g, b, a := in.At(xi+in.Bounds().Min.X, x+in.Bounds().Min.Y).RGBA()
rgba[0] += float32(r)
rgba[1] += float32(g)
rgba[2] += float32(b)
rgba[3] += float32(a)
sum++
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := floatToUint16(rgba[0] / sum)
out.Pix[offset+0] = uint8(value >> 8)
out.Pix[offset+1] = uint8(value)
value = floatToUint16(rgba[1] / sum)
out.Pix[offset+2] = uint8(value >> 8)
out.Pix[offset+3] = uint8(value)
value = floatToUint16(rgba[2] / sum)
out.Pix[offset+4] = uint8(value >> 8)
out.Pix[offset+5] = uint8(value)
value = floatToUint16(rgba[3] / sum)
out.Pix[offset+6] = uint8(value >> 8)
out.Pix[offset+7] = uint8(value)
}
}
}
func nearestRGBA(in *image.RGBA, out *image.RGBA, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 4
case xi >= maxX:
xi = 4 * maxX
default:
xi = 0
}
rgba[0] += float32(row[xi+0])
rgba[1] += float32(row[xi+1])
rgba[2] += float32(row[xi+2])
rgba[3] += float32(row[xi+3])
sum++
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*4
out.Pix[xo+0] = floatToUint8(rgba[0] / sum)
out.Pix[xo+1] = floatToUint8(rgba[1] / sum)
out.Pix[xo+2] = floatToUint8(rgba[2] / sum)
out.Pix[xo+3] = floatToUint8(rgba[3] / sum)
}
}
}
func nearestNRGBA(in *image.NRGBA, out *image.NRGBA, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 4
case xi >= maxX:
xi = 4 * maxX
default:
xi = 0
}
rgba[0] += float32(row[xi+0])
rgba[1] += float32(row[xi+1])
rgba[2] += float32(row[xi+2])
rgba[3] += float32(row[xi+3])
sum++
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*4
out.Pix[xo+0] = floatToUint8(rgba[0] / sum)
out.Pix[xo+1] = floatToUint8(rgba[1] / sum)
out.Pix[xo+2] = floatToUint8(rgba[2] / sum)
out.Pix[xo+3] = floatToUint8(rgba[3] / sum)
}
}
}
func nearestRGBA64(in *image.RGBA64, out *image.RGBA64, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 8
case xi >= maxX:
xi = 8 * maxX
default:
xi = 0
}
rgba[0] += float32(uint16(row[xi+0])<<8 | uint16(row[xi+1]))
rgba[1] += float32(uint16(row[xi+2])<<8 | uint16(row[xi+3]))
rgba[2] += float32(uint16(row[xi+4])<<8 | uint16(row[xi+5]))
rgba[3] += float32(uint16(row[xi+6])<<8 | uint16(row[xi+7]))
sum++
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := floatToUint16(rgba[0] / sum)
out.Pix[xo+0] = uint8(value >> 8)
out.Pix[xo+1] = uint8(value)
value = floatToUint16(rgba[1] / sum)
out.Pix[xo+2] = uint8(value >> 8)
out.Pix[xo+3] = uint8(value)
value = floatToUint16(rgba[2] / sum)
out.Pix[xo+4] = uint8(value >> 8)
out.Pix[xo+5] = uint8(value)
value = floatToUint16(rgba[3] / sum)
out.Pix[xo+6] = uint8(value >> 8)
out.Pix[xo+7] = uint8(value)
}
}
}
func nearestNRGBA64(in *image.NRGBA64, out *image.NRGBA64, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var rgba [4]float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 8
case xi >= maxX:
xi = 8 * maxX
default:
xi = 0
}
rgba[0] += float32(uint16(row[xi+0])<<8 | uint16(row[xi+1]))
rgba[1] += float32(uint16(row[xi+2])<<8 | uint16(row[xi+3]))
rgba[2] += float32(uint16(row[xi+4])<<8 | uint16(row[xi+5]))
rgba[3] += float32(uint16(row[xi+6])<<8 | uint16(row[xi+7]))
sum++
}
}
xo := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*8
value := floatToUint16(rgba[0] / sum)
out.Pix[xo+0] = uint8(value >> 8)
out.Pix[xo+1] = uint8(value)
value = floatToUint16(rgba[1] / sum)
out.Pix[xo+2] = uint8(value >> 8)
out.Pix[xo+3] = uint8(value)
value = floatToUint16(rgba[2] / sum)
out.Pix[xo+4] = uint8(value >> 8)
out.Pix[xo+5] = uint8(value)
value = floatToUint16(rgba[3] / sum)
out.Pix[xo+6] = uint8(value >> 8)
out.Pix[xo+7] = uint8(value)
}
}
}
func nearestGray(in *image.Gray, out *image.Gray, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var gray float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case xi < 0:
xi = 0
case xi >= maxX:
xi = maxX
}
gray += float32(row[xi])
sum++
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x - newBounds.Min.X)
out.Pix[offset] = floatToUint8(gray / sum)
}
}
}
func nearestGray16(in *image.Gray16, out *image.Gray16, scale float64, coeffs []bool, offset []int, filterLength int) {
newBounds := out.Bounds()
maxX := in.Bounds().Dx() - 1
for x := newBounds.Min.X; x < newBounds.Max.X; x++ {
row := in.Pix[x*in.Stride:]
for y := newBounds.Min.Y; y < newBounds.Max.Y; y++ {
var gray float32
var sum float32
start := offset[y]
ci := y * filterLength
for i := 0; i < filterLength; i++ {
if coeffs[ci+i] {
xi := start + i
switch {
case uint(xi) < uint(maxX):
xi *= 2
case xi >= maxX:
xi = 2 * maxX
default:
xi = 0
}
gray += float32(uint16(row[xi+0])<<8 | uint16(row[xi+1]))
sum++
}
}
offset := (y-newBounds.Min.Y)*out.Stride + (x-newBounds.Min.X)*2
value := floatToUint16(gray / sum)
out.Pix[offset+0] = uint8(value >> 8)
out.Pix[offset+1] = uint8(value)
}
}
}

620
src/vendor/github.com/nfnt/resize/resize.go generated vendored Normal file
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/*
Copyright (c) 2012, Jan Schlicht <jan.schlicht@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
// Package resize implements various image resizing methods.
//
// The package works with the Image interface described in the image package.
// Various interpolation methods are provided and multiple processors may be
// utilized in the computations.
//
// Example:
// imgResized := resize.Resize(1000, 0, imgOld, resize.MitchellNetravali)
package resize
import (
"image"
"runtime"
"sync"
)
// An InterpolationFunction provides the parameters that describe an
// interpolation kernel. It returns the number of samples to take
// and the kernel function to use for sampling.
type InterpolationFunction int
// InterpolationFunction constants
const (
// Nearest-neighbor interpolation
NearestNeighbor InterpolationFunction = iota
// Bilinear interpolation
Bilinear
// Bicubic interpolation (with cubic hermite spline)
Bicubic
// Mitchell-Netravali interpolation
MitchellNetravali
// Lanczos interpolation (a=2)
Lanczos2
// Lanczos interpolation (a=3)
Lanczos3
)
// kernal, returns an InterpolationFunctions taps and kernel.
func (i InterpolationFunction) kernel() (int, func(float64) float64) {
switch i {
case Bilinear:
return 2, linear
case Bicubic:
return 4, cubic
case MitchellNetravali:
return 4, mitchellnetravali
case Lanczos2:
return 4, lanczos2
case Lanczos3:
return 6, lanczos3
default:
// Default to NearestNeighbor.
return 2, nearest
}
}
// values <1 will sharpen the image
var blur = 1.0
// Resize scales an image to new width and height using the interpolation function interp.
// A new image with the given dimensions will be returned.
// If one of the parameters width or height is set to 0, its size will be calculated so that
// the aspect ratio is that of the originating image.
// The resizing algorithm uses channels for parallel computation.
// If the input image has width or height of 0, it is returned unchanged.
func Resize(width, height uint, img image.Image, interp InterpolationFunction) image.Image {
scaleX, scaleY := calcFactors(width, height, float64(img.Bounds().Dx()), float64(img.Bounds().Dy()))
if width == 0 {
width = uint(0.7 + float64(img.Bounds().Dx())/scaleX)
}
if height == 0 {
height = uint(0.7 + float64(img.Bounds().Dy())/scaleY)
}
// Trivial case: return input image
if int(width) == img.Bounds().Dx() && int(height) == img.Bounds().Dy() {
return img
}
// Input image has no pixels
if img.Bounds().Dx() <= 0 || img.Bounds().Dy() <= 0 {
return img
}
if interp == NearestNeighbor {
return resizeNearest(width, height, scaleX, scaleY, img, interp)
}
taps, kernel := interp.kernel()
cpus := runtime.GOMAXPROCS(0)
wg := sync.WaitGroup{}
// Generic access to image.Image is slow in tight loops.
// The optimal access has to be determined from the concrete image type.
switch input := img.(type) {
case *image.RGBA:
// 8-bit precision
temp := image.NewRGBA(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights8(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
resizeRGBA(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights8(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
resizeRGBA(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.NRGBA:
// 8-bit precision
temp := image.NewRGBA(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights8(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
resizeNRGBA(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights8(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
resizeRGBA(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.YCbCr:
// 8-bit precision
// accessing the YCbCr arrays in a tight loop is slow.
// converting the image to ycc increases performance by 2x.
temp := newYCC(image.Rect(0, 0, input.Bounds().Dy(), int(width)), input.SubsampleRatio)
result := newYCC(image.Rect(0, 0, int(width), int(height)), image.YCbCrSubsampleRatio444)
coeffs, offset, filterLength := createWeights8(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
in := imageYCbCrToYCC(input)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*ycc)
go func() {
defer wg.Done()
resizeYCbCr(in, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
coeffs, offset, filterLength = createWeights8(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*ycc)
go func() {
defer wg.Done()
resizeYCbCr(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result.YCbCr()
case *image.RGBA64:
// 16-bit precision
temp := image.NewRGBA64(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights16(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeRGBA64(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights16(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.NRGBA64:
// 16-bit precision
temp := image.NewRGBA64(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights16(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeNRGBA64(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights16(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.Gray:
// 8-bit precision
temp := image.NewGray(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewGray(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights8(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.Gray)
go func() {
defer wg.Done()
resizeGray(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights8(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.Gray)
go func() {
defer wg.Done()
resizeGray(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.Gray16:
// 16-bit precision
temp := image.NewGray16(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewGray16(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights16(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.Gray16)
go func() {
defer wg.Done()
resizeGray16(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights16(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.Gray16)
go func() {
defer wg.Done()
resizeGray16(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
default:
// 16-bit precision
temp := image.NewRGBA64(image.Rect(0, 0, img.Bounds().Dy(), int(width)))
result := image.NewRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeights16(temp.Bounds().Dy(), taps, blur, scaleX, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeGeneric(img, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeights16(result.Bounds().Dy(), taps, blur, scaleY, kernel)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
resizeRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
}
}
func resizeNearest(width, height uint, scaleX, scaleY float64, img image.Image, interp InterpolationFunction) image.Image {
taps, _ := interp.kernel()
cpus := runtime.GOMAXPROCS(0)
wg := sync.WaitGroup{}
switch input := img.(type) {
case *image.RGBA:
// 8-bit precision
temp := image.NewRGBA(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
nearestRGBA(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA)
go func() {
defer wg.Done()
nearestRGBA(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.NRGBA:
// 8-bit precision
temp := image.NewNRGBA(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewNRGBA(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.NRGBA)
go func() {
defer wg.Done()
nearestNRGBA(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.NRGBA)
go func() {
defer wg.Done()
nearestNRGBA(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.YCbCr:
// 8-bit precision
// accessing the YCbCr arrays in a tight loop is slow.
// converting the image to ycc increases performance by 2x.
temp := newYCC(image.Rect(0, 0, input.Bounds().Dy(), int(width)), input.SubsampleRatio)
result := newYCC(image.Rect(0, 0, int(width), int(height)), image.YCbCrSubsampleRatio444)
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
in := imageYCbCrToYCC(input)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*ycc)
go func() {
defer wg.Done()
nearestYCbCr(in, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*ycc)
go func() {
defer wg.Done()
nearestYCbCr(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result.YCbCr()
case *image.RGBA64:
// 16-bit precision
temp := image.NewRGBA64(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
nearestRGBA64(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
nearestRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.NRGBA64:
// 16-bit precision
temp := image.NewNRGBA64(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewNRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.NRGBA64)
go func() {
defer wg.Done()
nearestNRGBA64(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.NRGBA64)
go func() {
defer wg.Done()
nearestNRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.Gray:
// 8-bit precision
temp := image.NewGray(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewGray(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.Gray)
go func() {
defer wg.Done()
nearestGray(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.Gray)
go func() {
defer wg.Done()
nearestGray(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
case *image.Gray16:
// 16-bit precision
temp := image.NewGray16(image.Rect(0, 0, input.Bounds().Dy(), int(width)))
result := image.NewGray16(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.Gray16)
go func() {
defer wg.Done()
nearestGray16(input, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.Gray16)
go func() {
defer wg.Done()
nearestGray16(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
default:
// 16-bit precision
temp := image.NewRGBA64(image.Rect(0, 0, img.Bounds().Dy(), int(width)))
result := image.NewRGBA64(image.Rect(0, 0, int(width), int(height)))
// horizontal filter, results in transposed temporary image
coeffs, offset, filterLength := createWeightsNearest(temp.Bounds().Dy(), taps, blur, scaleX)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(temp, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
nearestGeneric(img, slice, scaleX, coeffs, offset, filterLength)
}()
}
wg.Wait()
// horizontal filter on transposed image, result is not transposed
coeffs, offset, filterLength = createWeightsNearest(result.Bounds().Dy(), taps, blur, scaleY)
wg.Add(cpus)
for i := 0; i < cpus; i++ {
slice := makeSlice(result, i, cpus).(*image.RGBA64)
go func() {
defer wg.Done()
nearestRGBA64(temp, slice, scaleY, coeffs, offset, filterLength)
}()
}
wg.Wait()
return result
}
}
// Calculates scaling factors using old and new image dimensions.
func calcFactors(width, height uint, oldWidth, oldHeight float64) (scaleX, scaleY float64) {
if width == 0 {
if height == 0 {
scaleX = 1.0
scaleY = 1.0
} else {
scaleY = oldHeight / float64(height)
scaleX = scaleY
}
} else {
scaleX = oldWidth / float64(width)
if height == 0 {
scaleY = scaleX
} else {
scaleY = oldHeight / float64(height)
}
}
return
}
type imageWithSubImage interface {
image.Image
SubImage(image.Rectangle) image.Image
}
func makeSlice(img imageWithSubImage, i, n int) image.Image {
return img.SubImage(image.Rect(img.Bounds().Min.X, img.Bounds().Min.Y+i*img.Bounds().Dy()/n, img.Bounds().Max.X, img.Bounds().Min.Y+(i+1)*img.Bounds().Dy()/n))
}

55
src/vendor/github.com/nfnt/resize/thumbnail.go generated vendored Normal file
View File

@ -0,0 +1,55 @@
/*
Copyright (c) 2012, Jan Schlicht <jan.schlicht@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
package resize
import (
"image"
)
// Thumbnail will downscale provided image to max width and height preserving
// original aspect ratio and using the interpolation function interp.
// It will return original image, without processing it, if original sizes
// are already smaller than provided constraints.
func Thumbnail(maxWidth, maxHeight uint, img image.Image, interp InterpolationFunction) image.Image {
origBounds := img.Bounds()
origWidth := uint(origBounds.Dx())
origHeight := uint(origBounds.Dy())
newWidth, newHeight := origWidth, origHeight
// Return original image if it have same or smaller size as constraints
if maxWidth >= origWidth && maxHeight >= origHeight {
return img
}
// Preserve aspect ratio
if origWidth > maxWidth {
newHeight = uint(origHeight * maxWidth / origWidth)
if newHeight < 1 {
newHeight = 1
}
newWidth = maxWidth
}
if newHeight > maxHeight {
newWidth = uint(newWidth * maxHeight / newHeight)
if newWidth < 1 {
newWidth = 1
}
newHeight = maxHeight
}
return Resize(newWidth, newHeight, img, interp)
}

387
src/vendor/github.com/nfnt/resize/ycc.go generated vendored Normal file
View File

@ -0,0 +1,387 @@
/*
Copyright (c) 2014, Charlie Vieth <charlie.vieth@gmail.com>
Permission to use, copy, modify, and/or distribute this software for any purpose
with or without fee is hereby granted, provided that the above copyright notice
and this permission notice appear in all copies.
THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH
REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT,
INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS
OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
THIS SOFTWARE.
*/
package resize
import (
"image"
"image/color"
)
// ycc is an in memory YCbCr image. The Y, Cb and Cr samples are held in a
// single slice to increase resizing performance.
type ycc struct {
// Pix holds the image's pixels, in Y, Cb, Cr order. The pixel at
// (x, y) starts at Pix[(y-Rect.Min.Y)*Stride + (x-Rect.Min.X)*3].
Pix []uint8
// Stride is the Pix stride (in bytes) between vertically adjacent pixels.
Stride int
// Rect is the image's bounds.
Rect image.Rectangle
// SubsampleRatio is the subsample ratio of the original YCbCr image.
SubsampleRatio image.YCbCrSubsampleRatio
}
// PixOffset returns the index of the first element of Pix that corresponds to
// the pixel at (x, y).
func (p *ycc) PixOffset(x, y int) int {
return (y-p.Rect.Min.Y)*p.Stride + (x-p.Rect.Min.X)*3
}
func (p *ycc) Bounds() image.Rectangle {
return p.Rect
}
func (p *ycc) ColorModel() color.Model {
return color.YCbCrModel
}
func (p *ycc) At(x, y int) color.Color {
if !(image.Point{x, y}.In(p.Rect)) {
return color.YCbCr{}
}
i := p.PixOffset(x, y)
return color.YCbCr{
p.Pix[i+0],
p.Pix[i+1],
p.Pix[i+2],
}
}
func (p *ycc) Opaque() bool {
return true
}
// SubImage returns an image representing the portion of the image p visible
// through r. The returned value shares pixels with the original image.
func (p *ycc) SubImage(r image.Rectangle) image.Image {
r = r.Intersect(p.Rect)
if r.Empty() {
return &ycc{SubsampleRatio: p.SubsampleRatio}
}
i := p.PixOffset(r.Min.X, r.Min.Y)
return &ycc{
Pix: p.Pix[i:],
Stride: p.Stride,
Rect: r,
SubsampleRatio: p.SubsampleRatio,
}
}
// newYCC returns a new ycc with the given bounds and subsample ratio.
func newYCC(r image.Rectangle, s image.YCbCrSubsampleRatio) *ycc {
w, h := r.Dx(), r.Dy()
buf := make([]uint8, 3*w*h)
return &ycc{Pix: buf, Stride: 3 * w, Rect: r, SubsampleRatio: s}
}
// Copy of image.YCbCrSubsampleRatio constants - this allows us to support
// older versions of Go where these constants are not defined (i.e. Go 1.4)
const (
ycbcrSubsampleRatio444 image.YCbCrSubsampleRatio = iota
ycbcrSubsampleRatio422
ycbcrSubsampleRatio420
ycbcrSubsampleRatio440
ycbcrSubsampleRatio411
ycbcrSubsampleRatio410
)
// YCbCr converts ycc to a YCbCr image with the same subsample ratio
// as the YCbCr image that ycc was generated from.
func (p *ycc) YCbCr() *image.YCbCr {
ycbcr := image.NewYCbCr(p.Rect, p.SubsampleRatio)
switch ycbcr.SubsampleRatio {
case ycbcrSubsampleRatio422:
return p.ycbcr422(ycbcr)
case ycbcrSubsampleRatio420:
return p.ycbcr420(ycbcr)
case ycbcrSubsampleRatio440:
return p.ycbcr440(ycbcr)
case ycbcrSubsampleRatio444:
return p.ycbcr444(ycbcr)
case ycbcrSubsampleRatio411:
return p.ycbcr411(ycbcr)
case ycbcrSubsampleRatio410:
return p.ycbcr410(ycbcr)
}
return ycbcr
}
// imageYCbCrToYCC converts a YCbCr image to a ycc image for resizing.
func imageYCbCrToYCC(in *image.YCbCr) *ycc {
w, h := in.Rect.Dx(), in.Rect.Dy()
p := ycc{
Pix: make([]uint8, 3*w*h),
Stride: 3 * w,
Rect: image.Rect(0, 0, w, h),
SubsampleRatio: in.SubsampleRatio,
}
switch in.SubsampleRatio {
case ycbcrSubsampleRatio422:
return convertToYCC422(in, &p)
case ycbcrSubsampleRatio420:
return convertToYCC420(in, &p)
case ycbcrSubsampleRatio440:
return convertToYCC440(in, &p)
case ycbcrSubsampleRatio444:
return convertToYCC444(in, &p)
case ycbcrSubsampleRatio411:
return convertToYCC411(in, &p)
case ycbcrSubsampleRatio410:
return convertToYCC410(in, &p)
}
return &p
}
func (p *ycc) ycbcr422(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := y * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x/2
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func (p *ycc) ycbcr420(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := (y / 2) * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x/2
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func (p *ycc) ycbcr440(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := (y / 2) * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func (p *ycc) ycbcr444(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := y * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func (p *ycc) ycbcr411(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := y * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x/4
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func (p *ycc) ycbcr410(ycbcr *image.YCbCr) *image.YCbCr {
var off int
Pix := p.Pix
Y := ycbcr.Y
Cb := ycbcr.Cb
Cr := ycbcr.Cr
for y := 0; y < ycbcr.Rect.Max.Y-ycbcr.Rect.Min.Y; y++ {
yy := y * ycbcr.YStride
cy := (y / 2) * ycbcr.CStride
for x := 0; x < ycbcr.Rect.Max.X-ycbcr.Rect.Min.X; x++ {
ci := cy + x/4
Y[yy+x] = Pix[off+0]
Cb[ci] = Pix[off+1]
Cr[ci] = Pix[off+2]
off += 3
}
}
return ycbcr
}
func convertToYCC422(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := y * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x/2
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}
func convertToYCC420(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := (y / 2) * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x/2
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}
func convertToYCC440(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := (y / 2) * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}
func convertToYCC444(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := y * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}
func convertToYCC411(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := y * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x/4
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}
func convertToYCC410(in *image.YCbCr, p *ycc) *ycc {
var off int
Pix := p.Pix
Y := in.Y
Cb := in.Cb
Cr := in.Cr
for y := 0; y < in.Rect.Max.Y-in.Rect.Min.Y; y++ {
yy := y * in.YStride
cy := (y / 2) * in.CStride
for x := 0; x < in.Rect.Max.X-in.Rect.Min.X; x++ {
ci := cy + x/4
Pix[off+0] = Y[yy+x]
Pix[off+1] = Cb[ci]
Pix[off+2] = Cr[ci]
off += 3
}
}
return p
}

View File

@ -398,6 +398,9 @@ github.com/modern-go/reflect2
# github.com/ncw/swift v1.0.49
## explicit
github.com/ncw/swift
# github.com/nfnt/resize v0.0.0-20180221191011-83c6a9932646
## explicit
github.com/nfnt/resize
# github.com/olekukonko/tablewriter v0.0.1
## explicit
github.com/olekukonko/tablewriter