/
image.go
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/
image.go
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// Copyright (C) 2017 Google Inc.
//
// 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 image
import (
"bytes"
"context"
"fmt"
"github.com/google/gapid/core/data/endian"
"github.com/google/gapid/core/os/device"
"github.com/google/gapid/core/stream"
"github.com/google/gapid/gapis/database"
)
// Interface compliance check
var _ = Convertable((*Info)(nil))
// ConvertTo implements the Convertable interface. It directly calls Convert.
func (i *Info) ConvertTo(ctx context.Context, f *Format) (interface{}, error) {
return i.Convert(ctx, f)
}
// Convert returns this image Info converted to the format f.
func (i *Info) Convert(ctx context.Context, f *Format) (*Info, error) {
id, err := database.Store(ctx, &ConvertResolvable{
Bytes: i.Bytes,
Width: i.Width,
Height: i.Height,
Depth: i.Depth,
FormatFrom: i.Format,
FormatTo: f,
})
if err != nil {
return nil, fmt.Errorf("Failed to convert ImageInfo to format %v: %v", f, err)
}
return &Info{
Format: f,
Width: i.Width,
Height: i.Height,
Depth: i.Depth,
Bytes: NewID(id),
}, nil
}
// Resize returns this image Info resized to the specified dimensions.
func (i *Info) Resize(ctx context.Context, w, h, d uint32) (*Info, error) {
id, err := database.Store(ctx, &ResizeResolvable{
Bytes: i.Bytes,
Format: i.Format,
SrcWidth: i.Width,
SrcHeight: i.Height,
SrcDepth: i.Depth,
DstWidth: w,
DstHeight: h,
DstDepth: d,
})
if err != nil {
return nil, fmt.Errorf("Failed to resize ImageInfo to %v x %v: %v", w, h, err)
}
return &Info{
Format: i.Format,
Width: w,
Height: h,
Depth: d,
Bytes: NewID(id),
}, nil
}
// Data loads the image from the database and returns a image Data.
func (i *Info) Data(ctx context.Context) (*Data, error) {
boxedBytes, err := database.Resolve(ctx, i.Bytes.ID())
if err != nil {
return nil, err
}
return &Data{
Bytes: boxedBytes.([]byte),
Width: i.Width,
Height: i.Height,
Depth: i.Depth,
Format: i.Format,
}, nil
}
// Convert returns the Data converted to the format to.
func (b *Data) Convert(to *Format) (*Data, error) {
bytes, err := Convert(b.Bytes, int(b.Width), int(b.Height), int(b.Depth), b.Format, to)
if err != nil {
return nil, err
}
return &Data{Bytes: bytes, Width: b.Width, Height: b.Height, Depth: b.Depth, Format: to}, nil
}
// NewInfo stores the image.Data's content to the database then uses the ID to
// create a new image.Info which describes this image.Data.
func (b *Data) NewInfo(ctx context.Context) (*Info, error) {
id, err := database.Store(ctx, b.Bytes)
if err != nil {
return nil, fmt.Errorf("Failed to create imageInfo from imageData %v: %v", b, err)
}
return &Info{
Format: b.Format,
Width: b.Width,
Height: b.Height,
Depth: b.Depth,
Bytes: NewID(id),
}, nil
}
// Difference returns the normalized square error between the two images.
// A return value of 0 denotes identical images, a return value of 1 denotes
// a complete mismatch (black vs white).
// Only channels that are found in both in a and b are compared. However, if
// there are no common channels then an error is returned.
func Difference(a, b *Data) (float32, error) {
if a.Width != b.Width || a.Height != b.Height {
return 1, fmt.Errorf("Image dimensions are not identical. %dx%d vs %dx%d",
a.Width, a.Height, b.Width, b.Height)
}
// Get the union of the channels for a and b.
aChannels, bChannels := a.Format.Channels(), b.Format.Channels()
bChannelSet := make(map[stream.Channel]struct{}, len(aChannels))
for _, c := range bChannels {
bChannelSet[c] = struct{}{}
}
channels := map[stream.Channel]struct{}{}
for _, c := range aChannels {
if _, ok := bChannelSet[c]; ok {
channels[c] = struct{}{}
}
}
if len(channels) == 0 {
return 1, fmt.Errorf("No common channels between %v and %v",
aChannels, bChannels)
}
// Create a new uncompressed format which holds all the channels found in
// a and b of type F32.
streamFmt := &stream.Format{}
for c := range channels {
component := &stream.Component{
DataType: &stream.F32,
Sampling: stream.Linear,
Channel: c,
}
streamFmt.Components = append(streamFmt.Components, component)
}
// Convert a and b to this new uncompressed format.
uncompressed := newUncompressed(streamFmt)
a, err := a.Convert(uncompressed)
if err != nil {
return 1, err
}
b, err = b.Convert(uncompressed)
if err != nil {
return 1, err
}
p := endian.Reader(bytes.NewReader(a.Bytes), device.LittleEndian)
q := endian.Reader(bytes.NewReader(b.Bytes), device.LittleEndian)
sqrErr := float32(0)
c := a.Width * a.Height * uint32(len(channels))
for i := uint32(0); i < c; i++ {
err := p.Float32() - q.Float32()
sqrErr += err * err
}
return sqrErr / float32(c), nil
}