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image.go
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image.go
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// Copyright 2014 Hajime Hoshi
//
// 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 ebiten
import (
"fmt"
"image"
"image/color"
"github.com/hajimehoshi/ebiten/v2/internal/affine"
"github.com/hajimehoshi/ebiten/v2/internal/atlas"
"github.com/hajimehoshi/ebiten/v2/internal/builtinshader"
"github.com/hajimehoshi/ebiten/v2/internal/graphics"
"github.com/hajimehoshi/ebiten/v2/internal/graphicscommand"
"github.com/hajimehoshi/ebiten/v2/internal/graphicsdriver"
"github.com/hajimehoshi/ebiten/v2/internal/shaderir"
"github.com/hajimehoshi/ebiten/v2/internal/ui"
)
// Image represents a rectangle set of pixels.
// The pixel format is alpha-premultiplied RGBA.
// Image implements the standard image.Image and draw.Image interfaces.
type Image struct {
// addr holds self to check copying.
// See strings.Builder for similar examples.
addr *Image
image *ui.Image
original *Image
bounds image.Rectangle
// tmpVertices must not be reused until ui.Image.Draw* is called.
tmpVertices []float32
// tmpIndices must not be reused until ui.Image.Draw* is called.
tmpIndices []uint32
// tmpUniforms must not be reused until ui.Image.Draw* is called.
tmpUniforms []uint32
// Do not add a 'buffering' member that are resolved lazily.
// This tends to forget resolving the buffer easily (#2362).
}
func (i *Image) copyCheck() {
if i.addr != i {
panic("ebiten: illegal use of non-zero Image copied by value")
}
}
// Size returns the size of the image.
//
// Deprecated: as of v2.5. Use Bounds().Dx() and Bounds().Dy() or Bounds().Size() instead.
func (i *Image) Size() (width, height int) {
s := i.Bounds().Size()
return s.X, s.Y
}
func (i *Image) isDisposed() bool {
return i.image == nil
}
func (i *Image) isSubImage() bool {
return i.original != nil
}
// Clear resets the pixels of the image into 0.
//
// When the image is disposed, Clear does nothing.
func (i *Image) Clear() {
i.Fill(color.Transparent)
}
// Fill fills the image with a solid color.
//
// When the image is disposed, Fill does nothing.
func (i *Image) Fill(clr color.Color) {
i.copyCheck()
if i.isDisposed() {
return
}
var crf, cgf, cbf, caf float32
cr, cg, cb, ca := clr.RGBA()
crf = float32(cr) / 0xffff
cgf = float32(cg) / 0xffff
cbf = float32(cb) / 0xffff
caf = float32(ca) / 0xffff
i.image.Fill(crf, cgf, cbf, caf, i.adjustedBounds())
}
func canSkipMipmap(geom GeoM, filter builtinshader.Filter) bool {
if filter != builtinshader.FilterLinear {
return true
}
return geom.det2x2() >= 0.999
}
// DrawImageOptions represents options for DrawImage.
type DrawImageOptions struct {
// GeoM is a geometry matrix to draw.
// The default (zero) value is identity, which draws the image at (0, 0).
GeoM GeoM
// ColorScale is a scale of color.
//
// ColorScale is slightly different from colorm.ColorM's Scale in terms of alphas.
// ColorScale is applied to premultiplied-alpha colors, while colorm.ColorM is applied to straight-alpha colors.
// Thus, ColorM.Scale(r, g, b, a) equals to ColorScale.Scale(r*a, g*a, b*a, a).
//
// The default (zero) value is identity, which is (1, 1, 1, 1).
ColorScale ColorScale
// ColorM is a color matrix to draw.
// The default (zero) value is identity, which doesn't change any color.
//
// Deprecated: as of v2.5. Use ColorScale or the package colorm instead.
ColorM ColorM
// CompositeMode is a composite mode to draw.
// The default (zero) value is CompositeModeCustom (Blend is used).
//
// Deprecated: as of v2.5. Use Blend instead.
CompositeMode CompositeMode
// Blend is a blending way of the source color and the destination color.
// Blend is used only when CompositeMode is CompositeModeCustom.
// The default (zero) value is the regular alpha blending.
Blend Blend
// Filter is a type of texture filter.
// The default (zero) value is FilterNearest.
Filter Filter
Clipper func(vs []float32) bool
}
// adjustPosition converts the position in the *ebiten.Image coordinate to the *ui.Image coordinate.
func (i *Image) adjustPosition(x, y int) (int, int) {
if i.isSubImage() {
or := i.original.Bounds()
x -= or.Min.X
y -= or.Min.Y
return x, y
}
r := i.Bounds()
x -= r.Min.X
y -= r.Min.Y
return x, y
}
// adjustPositionF32 converts the position in the *ebiten.Image coordinate to the *ui.Image coordinate.
func (i *Image) adjustPositionF32(x, y float32) (float32, float32) {
if i.isSubImage() {
or := i.original.Bounds()
x -= float32(or.Min.X)
y -= float32(or.Min.Y)
return x, y
}
r := i.Bounds()
x -= float32(r.Min.X)
y -= float32(r.Min.Y)
return x, y
}
func (i *Image) adjustedBounds() image.Rectangle {
b := i.Bounds()
x, y := i.adjustPosition(b.Min.X, b.Min.Y)
return image.Rect(x, y, x+b.Dx(), y+b.Dy())
}
// DrawImage draws the given image on the image i.
//
// DrawImage accepts the options. For details, see the document of
// DrawImageOptions.
//
// For drawing, the pixels of the argument image at the time of this call is
// adopted. Even if the argument image is mutated after this call, the drawing
// result is never affected.
//
// When the image i is disposed, DrawImage does nothing.
// When the given image img is disposed, DrawImage panics.
//
// When the given image is as same as i, DrawImage panics.
//
// DrawImage works more efficiently as batches
// when the successive calls of DrawImages satisfy the below conditions:
//
// - All render targets are the same (A in A.DrawImage(B, op))
// - All Blend values are the same
// - All Filter values are the same
//
// A whole image and its sub-image are considered to be the same, but some
// environments like browsers might not work efficiently (#2471).
//
// Even when all the above conditions are satisfied, multiple draw commands can
// be used in really rare cases. Ebitengine images usually share an internal
// automatic texture atlas, but when you consume the atlas, or you create a huge
// image, those images cannot be on the same texture atlas. In this case, draw
// commands are separated.
// Another case is when you use an offscreen as a render source. An offscreen
// doesn't share the texture atlas with high probability.
//
// For more performance tips, see https://ebitengine.org/en/documents/performancetips.html
func (i *Image) DrawImage(img *Image, options *DrawImageOptions) {
i.copyCheck()
if img.isDisposed() {
panic("ebiten: the given image to DrawImage must not be disposed")
}
if i.isDisposed() {
return
}
if options == nil {
options = &DrawImageOptions{}
}
var blend graphicsdriver.Blend
if options.CompositeMode == CompositeModeCustom {
blend = options.Blend.internalBlend()
} else {
blend = options.CompositeMode.blend().internalBlend()
}
filter := builtinshader.Filter(options.Filter)
geoM := options.GeoM
if offsetX, offsetY := i.adjustPosition(0, 0); offsetX != 0 || offsetY != 0 {
geoM.Translate(float64(offsetX), float64(offsetY))
}
a, b, c, d, tx, ty := geoM.elements32()
bounds := img.Bounds()
sx0, sy0 := img.adjustPosition(bounds.Min.X, bounds.Min.Y)
sx1, sy1 := img.adjustPosition(bounds.Max.X, bounds.Max.Y)
colorm, cr, cg, cb, ca := colorMToScale(options.ColorM.affineColorM())
cr, cg, cb, ca = options.ColorScale.apply(cr, cg, cb, ca)
vs := i.ensureTmpVertices(4 * graphics.VertexFloatCount)
graphics.QuadVertices(vs, float32(sx0), float32(sy0), float32(sx1), float32(sy1), a, b, c, d, tx, ty, cr, cg, cb, ca)
if options.Clipper != nil && !options.Clipper(vs) {
return
}
is := graphics.QuadIndices()
srcs := [graphics.ShaderSrcImageCount]*ui.Image{img.image}
useColorM := !colorm.IsIdentity()
shader := builtinShader(filter, builtinshader.AddressUnsafe, useColorM)
i.tmpUniforms = i.tmpUniforms[:0]
if useColorM {
var body [16]float32
var translation [4]float32
colorm.Elements(body[:], translation[:])
i.tmpUniforms = shader.appendUniforms(i.tmpUniforms, map[string]any{
builtinshader.UniformColorMBody: body[:],
builtinshader.UniformColorMTranslation: translation[:],
})
}
i.image.DrawTriangles(srcs, vs, is, blend, i.adjustedBounds(), [graphics.ShaderSrcImageCount]image.Rectangle{img.adjustedBounds()}, shader.shader, i.tmpUniforms, graphicsdriver.FillRuleFillAll, canSkipMipmap(geoM, filter), false)
}
// Vertex represents a vertex passed to DrawTriangles.
type Vertex struct {
// DstX and DstY represents a point on a destination image.
DstX float32
DstY float32
// SrcX and SrcY represents a point on a source image.
// Be careful that SrcX/SrcY coordinates are on the image's bounds.
// This means that an upper-left point of a sub-image might not be (0, 0).
SrcX float32
SrcY float32
// ColorR/ColorG/ColorB/ColorA represents color scaling values.
// Their interpretation depends on the concrete draw call used:
// - DrawTriangles: straight-alpha or premultiplied-alpha encoded color multiplier.
// The format is determined by ColorScaleMode in DrawTrianglesOptions.
// If ColorA is 0, the vertex is fully transparent and color is ignored.
// If ColorA is 1, the vertex has the color (ColorR, ColorG, ColorB).
// Vertex colors are converted to premultiplied-alpha internally and
// interpolated linearly respecting alpha.
// - DrawTrianglesShader: arbitrary floating point values sent to the shader.
// These are interpolated linearly and independently of each other.
ColorR float32
ColorG float32
ColorB float32
ColorA float32
}
// Address represents a sampler address mode.
type Address int
const (
// AddressUnsafe means there is no guarantee when the texture coordinates are out of range.
AddressUnsafe Address = Address(builtinshader.AddressUnsafe)
// AddressClampToZero means that out-of-range texture coordinates return 0 (transparent).
AddressClampToZero Address = Address(builtinshader.AddressClampToZero)
// AddressRepeat means that texture coordinates wrap to the other side of the texture.
AddressRepeat Address = Address(builtinshader.AddressRepeat)
)
// FillRule is the rule whether an overlapped region is rendered with DrawTriangles(Shader).
type FillRule int
const (
// FillRuleFillAll indicates all the triangles are rendered regardless of overlaps.
FillRuleFillAll FillRule = FillRule(graphicsdriver.FillRuleFillAll)
// FillRuleNonZero means that triangles are rendered based on the non-zero rule.
// If and only if the number of overlaps is not 0, the region is rendered.
FillRuleNonZero FillRule = FillRule(graphicsdriver.FillRuleNonZero)
// FillRuleEvenOdd means that triangles are rendered based on the even-odd rule.
// If and only if the number of overlaps is odd, the region is rendered.
FillRuleEvenOdd FillRule = FillRule(graphicsdriver.FillRuleEvenOdd)
)
const (
// FillAll indicates all the triangles are rendered regardless of overlaps.
//
// Deprecated: as of v2.8. Use FillRuleFillAll instead.
FillAll = FillRuleFillAll
// NonZero means that triangles are rendered based on the non-zero rule.
// If and only if the number of overlaps is not 0, the region is rendered.
//
// Deprecated: as of v2.8. Use FillRuleNonZero instead.
NonZero = FillRuleNonZero
// EvenOdd means that triangles are rendered based on the even-odd rule.
// If and only if the number of overlaps is odd, the region is rendered.
//
// Deprecated: as of v2.8. Use FillRuleEvenOdd instead.
EvenOdd = FillRuleEvenOdd
)
// ColorScaleMode is the mode of color scales in vertices.
type ColorScaleMode int
const (
// ColorScaleModeStraightAlpha indicates color scales in vertices are
// straight-alpha encoded color multiplier.
ColorScaleModeStraightAlpha ColorScaleMode = iota
// ColorScaleModePremultipliedAlpha indicates color scales in vertices are
// premultiplied-alpha encoded color multiplier.
ColorScaleModePremultipliedAlpha
)
// DrawTrianglesOptions represents options for DrawTriangles.
type DrawTrianglesOptions struct {
// ColorM is a color matrix to draw.
// The default (zero) value is identity, which doesn't change any color.
// ColorM is applied before vertex color scale is applied.
//
// Deprecated: as of v2.5. Use the package colorm instead.
ColorM ColorM
// ColorScaleMode is the mode of color scales in vertices.
// ColorScaleMode affects the color calculation with vertex colors, but doesn't affect with a color matrix.
// The default (zero) value is ColorScaleModeStraightAlpha.
ColorScaleMode ColorScaleMode
// CompositeMode is a composite mode to draw.
// The default (zero) value is CompositeModeCustom (Blend is used).
//
// Deprecated: as of v2.5. Use Blend instead.
CompositeMode CompositeMode
// Blend is a blending way of the source color and the destination color.
// Blend is used only when CompositeMode is CompositeModeCustom.
// The default (zero) value is the regular alpha blending.
Blend Blend
// Filter is a type of texture filter.
// The default (zero) value is FilterNearest.
Filter Filter
// Address is a sampler address mode.
// The default (zero) value is AddressUnsafe.
Address Address
// FillRule indicates the rule how an overlapped region is rendered.
//
// The rules FillRuleNonZero and FillRuleEvenOdd are useful when you want to render a complex polygon.
// A complex polygon is a non-convex polygon like a concave polygon, a polygon with holes, or a self-intersecting polygon.
// See examples/vector for actual usages.
//
// The default (zero) value is FillRuleFillAll.
FillRule FillRule
// AntiAlias indicates whether the rendering uses anti-alias or not.
// AntiAlias is useful especially when you pass vertices from the vector package.
//
// AntiAlias increases internal draw calls and might affect performance.
// Use the build tag `ebitenginedebug` to check the number of draw calls if you care.
//
// The default (zero) value is false.
AntiAlias bool
}
// MaxIndicesCount is the maximum number of indices for DrawTriangles and DrawTrianglesShader.
//
// Deprecated: as of v2.6. This constant is no longer used.
const MaxIndicesCount = (1 << 16) / 3 * 3
// MaxIndicesNum is the maximum number of indices for DrawTriangles and DrawTrianglesShader.
//
// Deprecated: as of v2.4. This constant is no longer used.
const MaxIndicesNum = MaxIndicesCount
// MaxVerticesCount is the maximum number of vertices for DrawTriangles and DrawTrianglesShader.
//
// Deprecated: as of v2.7. Use MaxVertexCount instead.
const MaxVerticesCount = graphicscommand.MaxVertexCount
// MaxVertexCount is the maximum number of vertices for DrawTriangles and DrawTrianglesShader.
const MaxVertexCount = graphicscommand.MaxVertexCount
// DrawTriangles draws triangles with the specified vertices and their indices.
//
// img is used as a source image. img cannot be nil.
// If you want to draw triangles with a solid color, use a small white image
// and adjust the color elements in the vertices. For an actual implementation,
// see the example 'vector'.
//
// Vertex contains color values, which are interpreted as straight-alpha colors by default.
// This depends on the option's ColorScaleMode.
//
// If len(vertices) is more than MaxVertexCount, the exceeding part is ignored.
//
// If len(indices) is not multiple of 3, DrawTriangles panics.
//
// If a value in indices is out of range of vertices, or not less than MaxVertexCount, DrawTriangles panics.
//
// The rule in which DrawTriangles works effectively is same as DrawImage's.
//
// When the given image is disposed, DrawTriangles panics.
//
// When the image i is disposed, DrawTriangles does nothing.
func (i *Image) DrawTriangles(vertices []Vertex, indices []uint16, img *Image, options *DrawTrianglesOptions) {
i.copyCheck()
if img != nil && img.isDisposed() {
panic("ebiten: the given image to DrawTriangles must not be disposed")
}
if i.isDisposed() {
return
}
if len(vertices) > graphicscommand.MaxVertexCount {
// The last part cannot be specified by indices. Just omit them.
vertices = vertices[:graphicscommand.MaxVertexCount]
}
if len(indices)%3 != 0 {
panic("ebiten: len(indices) % 3 must be 0")
}
for i, idx := range indices {
if int(idx) >= len(vertices) {
panic(fmt.Sprintf("ebiten: indices[%d] must be less than len(vertices) (%d) but was %d", i, len(vertices), idx))
}
}
if options == nil {
options = &DrawTrianglesOptions{}
}
var blend graphicsdriver.Blend
if options.CompositeMode == CompositeModeCustom {
blend = options.Blend.internalBlend()
} else {
blend = options.CompositeMode.blend().internalBlend()
}
address := builtinshader.Address(options.Address)
filter := builtinshader.Filter(options.Filter)
colorm, cr, cg, cb, ca := colorMToScale(options.ColorM.affineColorM())
vs := i.ensureTmpVertices(len(vertices) * graphics.VertexFloatCount)
dst := i
if options.ColorScaleMode == ColorScaleModeStraightAlpha {
for i, v := range vertices {
dx, dy := dst.adjustPositionF32(v.DstX, v.DstY)
vs[i*graphics.VertexFloatCount] = dx
vs[i*graphics.VertexFloatCount+1] = dy
sx, sy := img.adjustPositionF32(v.SrcX, v.SrcY)
vs[i*graphics.VertexFloatCount+2] = sx
vs[i*graphics.VertexFloatCount+3] = sy
vs[i*graphics.VertexFloatCount+4] = v.ColorR * v.ColorA * cr
vs[i*graphics.VertexFloatCount+5] = v.ColorG * v.ColorA * cg
vs[i*graphics.VertexFloatCount+6] = v.ColorB * v.ColorA * cb
vs[i*graphics.VertexFloatCount+7] = v.ColorA * ca
}
} else {
for i, v := range vertices {
dx, dy := dst.adjustPositionF32(v.DstX, v.DstY)
vs[i*graphics.VertexFloatCount] = dx
vs[i*graphics.VertexFloatCount+1] = dy
sx, sy := img.adjustPositionF32(v.SrcX, v.SrcY)
vs[i*graphics.VertexFloatCount+2] = sx
vs[i*graphics.VertexFloatCount+3] = sy
vs[i*graphics.VertexFloatCount+4] = v.ColorR * cr
vs[i*graphics.VertexFloatCount+5] = v.ColorG * cg
vs[i*graphics.VertexFloatCount+6] = v.ColorB * cb
vs[i*graphics.VertexFloatCount+7] = v.ColorA * ca
}
}
is := i.ensureTmpIndices(len(indices))
for i := range is {
is[i] = uint32(indices[i])
}
srcs := [graphics.ShaderSrcImageCount]*ui.Image{img.image}
useColorM := !colorm.IsIdentity()
shader := builtinShader(filter, address, useColorM)
i.tmpUniforms = i.tmpUniforms[:0]
if useColorM {
var body [16]float32
var translation [4]float32
colorm.Elements(body[:], translation[:])
i.tmpUniforms = shader.appendUniforms(i.tmpUniforms, map[string]any{
builtinshader.UniformColorMBody: body[:],
builtinshader.UniformColorMTranslation: translation[:],
})
}
i.image.DrawTriangles(srcs, vs, is, blend, i.adjustedBounds(), [graphics.ShaderSrcImageCount]image.Rectangle{img.adjustedBounds()}, shader.shader, i.tmpUniforms, graphicsdriver.FillRule(options.FillRule), filter != builtinshader.FilterLinear, options.AntiAlias)
}
// DrawTrianglesShaderOptions represents options for DrawTrianglesShader.
type DrawTrianglesShaderOptions struct {
// CompositeMode is a composite mode to draw.
// The default (zero) value is CompositeModeCustom (Blend is used).
//
// Deprecated: as of v2.5. Use Blend instead.
CompositeMode CompositeMode
// Blend is a blending way of the source color and the destination color.
// Blend is used only when CompositeMode is CompositeModeCustom.
// The default (zero) value is the regular alpha blending.
Blend Blend
// Uniforms is a set of uniform variables for the shader.
// The keys are the names of the uniform variables.
// The values must be a numeric type, or a slice or an array of a numeric type.
// If the uniform variable type is an array, a vector or a matrix,
// you have to specify linearly flattened values as a slice or an array.
// For example, if the uniform variable type is [4]vec4, the length will be 16.
//
// If a uniform variable's name doesn't exist in Uniforms, this is treated as if zero values are specified.
Uniforms map[string]any
// Images is a set of the source images.
// All the images' sizes must be the same.
Images [4]*Image
// FillRule indicates the rule how an overlapped region is rendered.
//
// The rules FillRuleNonZero and FillRuleEvenOdd are useful when you want to render a complex polygon.
// A complex polygon is a non-convex polygon like a concave polygon, a polygon with holes, or a self-intersecting polygon.
// See examples/vector for actual usages.
//
// The default (zero) value is FillRuleFillAll.
FillRule FillRule
// AntiAlias indicates whether the rendering uses anti-alias or not.
// AntiAlias is useful especially when you pass vertices from the vector package.
//
// AntiAlias increases internal draw calls and might affect performance.
// Use the build tag `ebitenginedebug` to check the number of draw calls if you care.
//
// The default (zero) value is false.
AntiAlias bool
}
// Check the number of images.
var _ [len(DrawTrianglesShaderOptions{}.Images) - graphics.ShaderSrcImageCount]struct{} = [0]struct{}{}
// DrawTrianglesShader draws triangles with the specified vertices and their indices with the specified shader.
//
// Vertex contains color values, which can be interpreted for any purpose by the shader.
//
// For the details about the shader, see https://ebitengine.org/en/documents/shader.html.
//
// If the shader unit is texels, one of the specified image is non-nil and its size is different from (width, height),
// DrawTrianglesShader panics.
// If one of the specified image is non-nil and is disposed, DrawTrianglesShader panics.
//
// If len(vertices) is more than MaxVertexCount, the exceeding part is ignored.
//
// If len(indices) is not multiple of 3, DrawTrianglesShader panics.
//
// If a value in indices is out of range of vertices, or not less than MaxVertexCount, DrawTrianglesShader panics.
//
// When a specified image is non-nil and is disposed, DrawTrianglesShader panics.
//
// If a specified uniform variable's length or type doesn't match with an expected one, DrawTrianglesShader panics.
//
// Even if a result is an invalid color as a premultiplied-alpha color, i.e. an alpha value exceeds other color values,
// the value is kept and is not clamped.
//
// When the image i is disposed, DrawTrianglesShader does nothing.
func (i *Image) DrawTrianglesShader(vertices []Vertex, indices []uint16, shader *Shader, options *DrawTrianglesShaderOptions) {
i.copyCheck()
if i.isDisposed() {
return
}
if shader.isDisposed() {
panic("ebiten: the given shader to DrawTrianglesShader must not be disposed")
}
if len(vertices) > graphicscommand.MaxVertexCount {
// The last part cannot be specified by indices. Just omit them.
vertices = vertices[:graphicscommand.MaxVertexCount]
}
if len(indices)%3 != 0 {
panic("ebiten: len(indices) % 3 must be 0")
}
for i, idx := range indices {
if int(idx) >= len(vertices) {
panic(fmt.Sprintf("ebiten: indices[%d] must be less than len(vertices) (%d) but was %d", i, len(vertices), idx))
}
}
if options == nil {
options = &DrawTrianglesShaderOptions{}
}
var blend graphicsdriver.Blend
if options.CompositeMode == CompositeModeCustom {
blend = options.Blend.internalBlend()
} else {
blend = options.CompositeMode.blend().internalBlend()
}
vs := i.ensureTmpVertices(len(vertices) * graphics.VertexFloatCount)
dst := i
src := options.Images[0]
for i, v := range vertices {
dx, dy := dst.adjustPositionF32(v.DstX, v.DstY)
vs[i*graphics.VertexFloatCount] = dx
vs[i*graphics.VertexFloatCount+1] = dy
sx, sy := v.SrcX, v.SrcY
if src != nil {
sx, sy = src.adjustPositionF32(sx, sy)
}
vs[i*graphics.VertexFloatCount+2] = sx
vs[i*graphics.VertexFloatCount+3] = sy
vs[i*graphics.VertexFloatCount+4] = v.ColorR
vs[i*graphics.VertexFloatCount+5] = v.ColorG
vs[i*graphics.VertexFloatCount+6] = v.ColorB
vs[i*graphics.VertexFloatCount+7] = v.ColorA
}
is := i.ensureTmpIndices(len(indices))
for i := range is {
is[i] = uint32(indices[i])
}
var imgs [graphics.ShaderSrcImageCount]*ui.Image
var imgSize image.Point
for i, img := range options.Images {
if img == nil {
continue
}
if img.isDisposed() {
panic("ebiten: the given image to DrawTrianglesShader must not be disposed")
}
if shader.unit == shaderir.Texels {
if i == 0 {
imgSize = img.Bounds().Size()
} else {
// TODO: Check imgw > 0 && imgh > 0
if img.Bounds().Size() != imgSize {
panic("ebiten: all the source images must be the same size with the rectangle")
}
}
}
imgs[i] = img.image
}
var srcRegions [graphics.ShaderSrcImageCount]image.Rectangle
for i, img := range options.Images {
if img == nil {
continue
}
srcRegions[i] = img.adjustedBounds()
}
i.tmpUniforms = i.tmpUniforms[:0]
i.tmpUniforms = shader.appendUniforms(i.tmpUniforms, options.Uniforms)
i.image.DrawTriangles(imgs, vs, is, blend, i.adjustedBounds(), srcRegions, shader.shader, i.tmpUniforms, graphicsdriver.FillRule(options.FillRule), true, options.AntiAlias)
}
// DrawRectShaderOptions represents options for DrawRectShader.
type DrawRectShaderOptions struct {
// GeoM is a geometry matrix to draw.
// The default (zero) value is identity, which draws the rectangle at (0, 0).
GeoM GeoM
// ColorScale is a scale of color.
// This scaling values are passed to the `color vec4` argument of the Fragment function in a Kage program.
// The default (zero) value is identity, which is (1, 1, 1, 1).
ColorScale ColorScale
// CompositeMode is a composite mode to draw.
// The default (zero) value is CompositeModeCustom (Blend is used).
//
// Deprecated: as of v2.5. Use Blend instead.
CompositeMode CompositeMode
// Blend is a blending way of the source color and the destination color.
// Blend is used only when CompositeMode is CompositeModeCustom.
// The default (zero) value is the regular alpha blending.
Blend Blend
// Uniforms is a set of uniform variables for the shader.
// The keys are the names of the uniform variables.
// The values must be a numeric type, or a slice or an array of a numeric type.
// If the uniform variable type is an array, a vector or a matrix,
// you have to specify linearly flattened values as a slice or an array.
// For example, if the uniform variable type is [4]vec4, the length will be 16.
//
// If a uniform variable's name doesn't exist in Uniforms, this is treated as if zero values are specified.
Uniforms map[string]any
// Images is a set of the source images.
// All the images' sizes must be the same.
Images [4]*Image
}
// Check the number of images.
var _ [len(DrawRectShaderOptions{}.Images)]struct{} = [graphics.ShaderSrcImageCount]struct{}{}
// DrawRectShader draws a rectangle with the specified width and height with the specified shader.
//
// For the details about the shader, see https://ebitengine.org/en/documents/shader.html.
//
// When one of the specified image is non-nil and its size is different from (width, height), DrawRectShader panics.
// When one of the specified image is non-nil and is disposed, DrawRectShader panics.
//
// If a specified uniform variable's length or type doesn't match with an expected one, DrawRectShader panics.
//
// In a shader, srcPos in Fragment represents a position in a source image.
// If no source images are specified, srcPos represents the position from (0, 0) to (width, height) in pixels.
// If the unit is pixels by a compiler directive `//kage:unit pixelss`, srcPos values are valid.
// If the unit is texels (default), srcPos values still take from (0, 0) to (width, height),
// but these are invalid since srcPos is expected to be in texels in the texel-unit mode.
// This behavior is preserved for backward compatibility. It is recommended to use the pixel-unit mode to avoid confusion.
//
// If no source images are specified, imageSrc0Size returns a valid size only when the unit is pixels,
// but always returns 0 when the unit is texels (default).
//
// Even if a result is an invalid color as a premultiplied-alpha color, i.e. an alpha value exceeds other color values,
// the value is kept and is not clamped.
//
// When the image i is disposed, DrawRectShader does nothing.
func (i *Image) DrawRectShader(width, height int, shader *Shader, options *DrawRectShaderOptions) {
i.copyCheck()
if i.isDisposed() {
return
}
if shader.isDisposed() {
panic("ebiten: the given shader to DrawRectShader must not be disposed")
}
if options == nil {
options = &DrawRectShaderOptions{}
}
var blend graphicsdriver.Blend
if options.CompositeMode == CompositeModeCustom {
blend = options.Blend.internalBlend()
} else {
blend = options.CompositeMode.blend().internalBlend()
}
var imgs [graphics.ShaderSrcImageCount]*ui.Image
for i, img := range options.Images {
if img == nil {
continue
}
if img.isDisposed() {
panic("ebiten: the given image to DrawRectShader must not be disposed")
}
if img.Bounds().Size() != image.Pt(width, height) {
panic("ebiten: all the source images must be the same size with the rectangle")
}
imgs[i] = img.image
}
var srcRegions [graphics.ShaderSrcImageCount]image.Rectangle
for i, img := range options.Images {
if img == nil {
if shader.unit == shaderir.Pixels && i == 0 {
// Give the source size as pixels only when the unit is pixels so that users can get the source size via imageSrc0Size (#2166).
// With the texel mode, the imageSrc0Origin and imageSrc0Size values should be in texels so the source position in pixels would not match.
srcRegions[i] = image.Rect(0, 0, width, height)
}
continue
}
srcRegions[i] = img.adjustedBounds()
}
geoM := options.GeoM
if offsetX, offsetY := i.adjustPosition(0, 0); offsetX != 0 || offsetY != 0 {
geoM.Translate(float64(offsetX), float64(offsetY))
}
a, b, c, d, tx, ty := geoM.elements32()
cr, cg, cb, ca := options.ColorScale.elements()
vs := i.ensureTmpVertices(4 * graphics.VertexFloatCount)
// Do not use srcRegions[0].Dx() and srcRegions[0].Dy() as these might be empty.
graphics.QuadVertices(vs,
float32(srcRegions[0].Min.X), float32(srcRegions[0].Min.Y),
float32(srcRegions[0].Min.X+width), float32(srcRegions[0].Min.Y+height),
a, b, c, d, tx, ty, cr, cg, cb, ca)
is := graphics.QuadIndices()
i.tmpUniforms = i.tmpUniforms[:0]
i.tmpUniforms = shader.appendUniforms(i.tmpUniforms, options.Uniforms)
i.image.DrawTriangles(imgs, vs, is, blend, i.adjustedBounds(), srcRegions, shader.shader, i.tmpUniforms, graphicsdriver.FillRuleFillAll, true, false)
}
// SubImage returns an image representing the portion of the image p visible through r.
// The returned value shares pixels with the original image.
//
// The returned value is always *ebiten.Image.
//
// If the image is disposed, SubImage returns nil.
//
// A sub-image returned by SubImage can be used as a rendering source and a rendering destination.
// If a sub-image is used as a rendering source, the image is used as if it is a small image.
// If a sub-image is used as a rendering destination, the region being rendered is clipped.
//
// Successive uses of multiple various regions as rendering destination is still efficient
// when all the underlying images are the same, but some platforms like browsers might not work efficiently.
func (i *Image) SubImage(r image.Rectangle) image.Image {
i.copyCheck()
if i.isDisposed() {
return nil
}
r = r.Intersect(i.Bounds())
// Need to check Empty explicitly. See the standard image package implementations.
if r.Empty() {
r = image.ZR
}
var orig = i
if i.isSubImage() {
orig = i.original
}
img := &Image{
image: i.image,
bounds: r,
original: orig,
}
img.addr = img
return img
}
// Bounds returns the bounds of the image.
//
// Bounds implements the standard image.Image's Bounds.
func (i *Image) Bounds() image.Rectangle {
if i.isDisposed() {
panic("ebiten: the image is already disposed")
}
return i.bounds
}
// ColorModel returns the color model of the image.
//
// ColorModel implements the standard image.Image's ColorModel.
func (i *Image) ColorModel() color.Model {
return color.RGBAModel
}
// ReadPixels reads the image's pixels from the image.
//
// The given pixels represent RGBA pre-multiplied alpha values.
//
// ReadPixels loads pixels from GPU to system memory if necessary, which means that ReadPixels can be slow.
//
// ReadPixels always sets a transparent color if the image is disposed.
//
// len(pixels) must be 4 * (bounds width) * (bounds height).
// If len(pixels) is not correct, ReadPixels panics.
//
// ReadPixels also works on a sub-image.
//
// Note that an important logic should not rely on values returned by ReadPixels, since
// the returned values can include very slight differences between some machines.
//
// ReadPixels can't be called outside the main loop (ebiten.Run's updating function) starts.
func (i *Image) ReadPixels(pixels []byte) {
b := i.Bounds()
if got, want := len(pixels), 4*b.Dx()*b.Dy(); got != want {
panic(fmt.Sprintf("ebiten: len(pixels) must be %d but %d at ReadPixels", want, got))
}
if i.isDisposed() {
for i := range pixels {
pixels[i] = 0
}
return
}
i.image.ReadPixels(pixels, i.adjustedBounds())
}
// At returns the color of the image at (x, y).
//
// At implements the standard image.Image's At.
//
// At loads pixels from GPU to system memory if necessary, which means that At can be slow.
//
// At always returns a transparent color if the image is disposed.
//
// Note that an important logic should not rely on values returned by At, since
// the returned values can include very slight differences between some machines.
//
// At can't be called outside the main loop (ebiten.Run's updating function) starts.
func (i *Image) At(x, y int) color.Color {
r, g, b, a := i.at(x, y)
return color.RGBA{R: r, G: g, B: b, A: a}
}
// RGBA64At implements the standard image.RGBA64Image's RGBA64At.
//
// RGBA64At loads pixels from GPU to system memory if necessary, which means
// that RGBA64At can be slow.
//
// RGBA64At always returns a transparent color if the image is disposed.
//
// Note that an important logic should not rely on values returned by RGBA64At,
// since the returned values can include very slight differences between some machines.
//
// RGBA64At can't be called outside the main loop (ebiten.Run's updating function) starts.
func (i *Image) RGBA64At(x, y int) color.RGBA64 {
r, g, b, a := i.at(x, y)
return color.RGBA64{R: uint16(r) * 0x101, G: uint16(g) * 0x101, B: uint16(b) * 0x101, A: uint16(a) * 0x101}
}
func (i *Image) at(x, y int) (r, g, b, a byte) {
if i.isDisposed() {
return 0, 0, 0, 0
}
if !image.Pt(x, y).In(i.Bounds()) {
return 0, 0, 0, 0
}
x, y = i.adjustPosition(x, y)
var pix [4]byte
i.image.ReadPixels(pix[:], image.Rect(x, y, x+1, y+1))
return pix[0], pix[1], pix[2], pix[3]
}
// Set sets the color at (x, y).
//
// Set implements the standard draw.Image's Set.
//
// Even if a result is an invalid color as a premultiplied-alpha color, i.e. an alpha value exceeds other color values,
// the value is kept and is not clamped.
//
// If the image is disposed, Set does nothing.
func (i *Image) Set(x, y int, clr color.Color) {
i.copyCheck()
if i.isDisposed() {
return
}