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image: guard against NewXxx integer overflow
Prior to this commit, NewXxx could panic when passed an image.Rectangle with one of width or height being negative. But it might not panic if both were negative, because (bpp * w * h) could still be positive. After this commit, it will panic if both are negative. With overflow, NewXxx might not have panicked if (bpp * w * h), the length passed to "make([]uint8, length)", was still non-negative (after truncation), but even if w and h were valid (non-negative), the overall byte slice wasn't long enough. Iterating over the pixels would possibly panic later with index out of bounds. This change moves the panic earlier, closer to where the mistake is. Change-Id: I011feb2d53515fc3f0fe72bb6c23b3953772c577 Reviewed-on: https://go-review.googlesource.com/c/go/+/230220 Reviewed-by: Rob Pike <r@golang.org>
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@ -6,6 +6,7 @@ package image
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import (
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"image/color"
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"math/bits"
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"strconv"
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)
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@ -272,3 +273,37 @@ func Rect(x0, y0, x1, y1 int) Rectangle {
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}
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return Rectangle{Point{x0, y0}, Point{x1, y1}}
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}
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// mul3NonNeg returns (x * y * z), unless at least one argument is negative or
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// if the computation overflows the int type, in which case it returns -1.
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func mul3NonNeg(x int, y int, z int) int {
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if (x < 0) || (y < 0) || (z < 0) {
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return -1
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}
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hi, lo := bits.Mul64(uint64(x), uint64(y))
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if hi != 0 {
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return -1
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}
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hi, lo = bits.Mul64(lo, uint64(z))
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if hi != 0 {
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return -1
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}
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a := int(lo)
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if (a < 0) || (uint64(a) != lo) {
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return -1
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}
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return a
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}
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// add2NonNeg returns (x + y), unless at least one argument is negative or if
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// the computation overflows the int type, in which case it returns -1.
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func add2NonNeg(x int, y int) int {
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if (x < 0) || (y < 0) {
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return -1
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}
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a := x + y
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if a < 0 {
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return -1
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}
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return a
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}
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@ -56,6 +56,21 @@ type PalettedImage interface {
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Image
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}
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// pixelBufferLength returns the length of the []uint8 typed Pix slice field
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// for the NewXxx functions. Conceptually, this is just (bpp * width * height),
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// but this function panics if at least one of those is negative or if the
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// computation would overflow the int type.
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//
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// This panics instead of returning an error because of backwards
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// compatibility. The NewXxx functions do not return an error.
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func pixelBufferLength(bytesPerPixel int, r Rectangle, imageTypeName string) int {
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totalLength := mul3NonNeg(bytesPerPixel, r.Dx(), r.Dy())
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if totalLength < 0 {
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panic("image: New" + imageTypeName + " Rectangle has huge or negative dimensions")
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}
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return totalLength
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}
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// RGBA is an in-memory image whose At method returns color.RGBA values.
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type RGBA struct {
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// Pix holds the image's pixels, in R, G, B, A order. The pixel at
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@ -153,9 +168,11 @@ func (p *RGBA) Opaque() bool {
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// NewRGBA returns a new RGBA image with the given bounds.
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func NewRGBA(r Rectangle) *RGBA {
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w, h := r.Dx(), r.Dy()
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buf := make([]uint8, 4*w*h)
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return &RGBA{buf, 4 * w, r}
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return &RGBA{
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Pix: make([]uint8, pixelBufferLength(4, r, "RGBA")),
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Stride: 4 * r.Dx(),
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Rect: r,
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}
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}
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// RGBA64 is an in-memory image whose At method returns color.RGBA64 values.
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@ -268,9 +285,11 @@ func (p *RGBA64) Opaque() bool {
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// NewRGBA64 returns a new RGBA64 image with the given bounds.
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func NewRGBA64(r Rectangle) *RGBA64 {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 8*w*h)
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return &RGBA64{pix, 8 * w, r}
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return &RGBA64{
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Pix: make([]uint8, pixelBufferLength(8, r, "RGBA64")),
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Stride: 8 * r.Dx(),
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Rect: r,
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}
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}
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// NRGBA is an in-memory image whose At method returns color.NRGBA values.
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@ -370,9 +389,11 @@ func (p *NRGBA) Opaque() bool {
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// NewNRGBA returns a new NRGBA image with the given bounds.
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func NewNRGBA(r Rectangle) *NRGBA {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 4*w*h)
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return &NRGBA{pix, 4 * w, r}
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return &NRGBA{
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Pix: make([]uint8, pixelBufferLength(4, r, "NRGBA")),
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Stride: 4 * r.Dx(),
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Rect: r,
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}
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}
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// NRGBA64 is an in-memory image whose At method returns color.NRGBA64 values.
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@ -485,9 +506,11 @@ func (p *NRGBA64) Opaque() bool {
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// NewNRGBA64 returns a new NRGBA64 image with the given bounds.
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func NewNRGBA64(r Rectangle) *NRGBA64 {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 8*w*h)
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return &NRGBA64{pix, 8 * w, r}
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return &NRGBA64{
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Pix: make([]uint8, pixelBufferLength(8, r, "NRGBA64")),
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Stride: 8 * r.Dx(),
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Rect: r,
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}
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}
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// Alpha is an in-memory image whose At method returns color.Alpha values.
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@ -577,9 +600,11 @@ func (p *Alpha) Opaque() bool {
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// NewAlpha returns a new Alpha image with the given bounds.
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func NewAlpha(r Rectangle) *Alpha {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 1*w*h)
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return &Alpha{pix, 1 * w, r}
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return &Alpha{
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Pix: make([]uint8, pixelBufferLength(1, r, "Alpha")),
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Stride: 1 * r.Dx(),
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Rect: r,
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}
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}
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// Alpha16 is an in-memory image whose At method returns color.Alpha16 values.
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@ -672,9 +697,11 @@ func (p *Alpha16) Opaque() bool {
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// NewAlpha16 returns a new Alpha16 image with the given bounds.
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func NewAlpha16(r Rectangle) *Alpha16 {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 2*w*h)
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return &Alpha16{pix, 2 * w, r}
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return &Alpha16{
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Pix: make([]uint8, pixelBufferLength(2, r, "Alpha16")),
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Stride: 2 * r.Dx(),
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Rect: r,
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}
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}
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// Gray is an in-memory image whose At method returns color.Gray values.
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@ -751,9 +778,11 @@ func (p *Gray) Opaque() bool {
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// NewGray returns a new Gray image with the given bounds.
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func NewGray(r Rectangle) *Gray {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 1*w*h)
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return &Gray{pix, 1 * w, r}
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return &Gray{
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Pix: make([]uint8, pixelBufferLength(1, r, "Gray")),
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Stride: 1 * r.Dx(),
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Rect: r,
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}
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}
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// Gray16 is an in-memory image whose At method returns color.Gray16 values.
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@ -833,9 +862,11 @@ func (p *Gray16) Opaque() bool {
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// NewGray16 returns a new Gray16 image with the given bounds.
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func NewGray16(r Rectangle) *Gray16 {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 2*w*h)
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return &Gray16{pix, 2 * w, r}
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return &Gray16{
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Pix: make([]uint8, pixelBufferLength(2, r, "Gray16")),
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Stride: 2 * r.Dx(),
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Rect: r,
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}
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}
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// CMYK is an in-memory image whose At method returns color.CMYK values.
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@ -922,9 +953,11 @@ func (p *CMYK) Opaque() bool {
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// NewCMYK returns a new CMYK image with the given bounds.
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func NewCMYK(r Rectangle) *CMYK {
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w, h := r.Dx(), r.Dy()
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buf := make([]uint8, 4*w*h)
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return &CMYK{buf, 4 * w, r}
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return &CMYK{
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Pix: make([]uint8, pixelBufferLength(4, r, "CMYK")),
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Stride: 4 * r.Dx(),
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Rect: r,
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}
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}
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// Paletted is an in-memory image of uint8 indices into a given palette.
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@ -1032,7 +1065,10 @@ func (p *Paletted) Opaque() bool {
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// NewPaletted returns a new Paletted image with the given width, height and
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// palette.
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func NewPaletted(r Rectangle, p color.Palette) *Paletted {
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w, h := r.Dx(), r.Dy()
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pix := make([]uint8, 1*w*h)
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return &Paletted{pix, 1 * w, r, p}
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return &Paletted{
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Pix: make([]uint8, pixelBufferLength(1, r, "Paletted")),
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Stride: 1 * r.Dx(),
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Rect: r,
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Palette: p,
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}
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}
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@ -88,6 +88,78 @@ func TestImage(t *testing.T) {
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}
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}
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func TestNewXxxBadRectangle(t *testing.T) {
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// call calls f(r) and reports whether it ran without panicking.
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call := func(f func(Rectangle), r Rectangle) (ok bool) {
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defer func() {
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if recover() != nil {
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ok = false
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}
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}()
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f(r)
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return true
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}
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testCases := []struct {
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name string
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f func(Rectangle)
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}{
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{"RGBA", func(r Rectangle) { NewRGBA(r) }},
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{"RGBA64", func(r Rectangle) { NewRGBA64(r) }},
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{"NRGBA", func(r Rectangle) { NewNRGBA(r) }},
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{"NRGBA64", func(r Rectangle) { NewNRGBA64(r) }},
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{"Alpha", func(r Rectangle) { NewAlpha(r) }},
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{"Alpha16", func(r Rectangle) { NewAlpha16(r) }},
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{"Gray", func(r Rectangle) { NewGray(r) }},
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{"Gray16", func(r Rectangle) { NewGray16(r) }},
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{"CMYK", func(r Rectangle) { NewCMYK(r) }},
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{"Paletted", func(r Rectangle) { NewPaletted(r, color.Palette{color.Black, color.White}) }},
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{"YCbCr", func(r Rectangle) { NewYCbCr(r, YCbCrSubsampleRatio422) }},
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{"NYCbCrA", func(r Rectangle) { NewNYCbCrA(r, YCbCrSubsampleRatio444) }},
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}
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for _, tc := range testCases {
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// Calling NewXxx(r) should fail (panic, since NewXxx doesn't return an
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// error) unless r's width and height are both non-negative.
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for _, negDx := range []bool{false, true} {
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for _, negDy := range []bool{false, true} {
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r := Rectangle{
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Min: Point{15, 28},
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Max: Point{16, 29},
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}
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if negDx {
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r.Max.X = 14
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}
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if negDy {
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r.Max.Y = 27
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}
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got := call(tc.f, r)
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want := !negDx && !negDy
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if got != want {
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t.Errorf("New%s: negDx=%t, negDy=%t: got %t, want %t",
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tc.name, negDx, negDy, got, want)
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}
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}
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}
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// Passing a Rectangle whose width and height is MaxInt should also fail
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// (panic), due to overflow.
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{
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zeroAsUint := uint(0)
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maxUint := zeroAsUint - 1
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maxInt := int(maxUint / 2)
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got := call(tc.f, Rectangle{
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Min: Point{0, 0},
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Max: Point{maxInt, maxInt},
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})
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if got {
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t.Errorf("New%s: overflow: got ok, want !ok", tc.name)
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}
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}
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}
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}
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func Test16BitsPerColorChannel(t *testing.T) {
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testColorModel := []color.Model{
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color.RGBA64Model,
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@ -168,6 +168,16 @@ func yCbCrSize(r Rectangle, subsampleRatio YCbCrSubsampleRatio) (w, h, cw, ch in
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// ratio.
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func NewYCbCr(r Rectangle, subsampleRatio YCbCrSubsampleRatio) *YCbCr {
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w, h, cw, ch := yCbCrSize(r, subsampleRatio)
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// totalLength should be the same as i2, below, for a valid Rectangle r.
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totalLength := add2NonNeg(
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mul3NonNeg(1, w, h),
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mul3NonNeg(2, cw, ch),
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)
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if totalLength < 0 {
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panic("image: NewYCbCr Rectangle has huge or negative dimensions")
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}
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i0 := w*h + 0*cw*ch
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i1 := w*h + 1*cw*ch
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i2 := w*h + 2*cw*ch
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@ -277,6 +287,16 @@ func (p *NYCbCrA) Opaque() bool {
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// ratio.
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func NewNYCbCrA(r Rectangle, subsampleRatio YCbCrSubsampleRatio) *NYCbCrA {
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w, h, cw, ch := yCbCrSize(r, subsampleRatio)
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// totalLength should be the same as i3, below, for a valid Rectangle r.
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totalLength := add2NonNeg(
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mul3NonNeg(2, w, h),
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mul3NonNeg(2, cw, ch),
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)
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if totalLength < 0 {
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panic("image: NewNYCbCrA Rectangle has huge or negative dimension")
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}
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i0 := 1*w*h + 0*cw*ch
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i1 := 1*w*h + 1*cw*ch
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i2 := 1*w*h + 2*cw*ch
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