Apple-2-Tools/izapple2
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izapple2/screenHiRes.go

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package apple2
import (
"image"
"image/color"
)
const (
hiResWidth = 280
hiResHeight = 192
hiResHeightMixed = 160
hiResPage1Address = uint16(0x2000)
hiResPage2Address = uint16(0x4000)
)
func getHiResLineOffset(line int) uint16 {
// See "Understanding the Apple II", page 5-14
// http://www.applelogic.org/files/UNDERSTANDINGTHEAII.pdf
section := line >> 6 // Top, middle and bottom
outerEigth := (line >> 3) & 0x07
innerEigth := line & 0x07
return uint16(section*40 + outerEigth*0x80 + innerEigth*0x400)
}
func getHiResLine(a *Apple2, line int, page int) []uint8 {
address := hiResPage1Address
if page == 1 {
address = hiResPage2Address
}
address += getHiResLineOffset(line)
return a.mmu.physicalMainRAM.subRange(address, address+40)
}
func snapshotHiResModeMonoShift(a *Apple2, page int, mixedMode bool, light color.Color) *image.RGBA {
// As described in "Undertanding the Apple II", with half pixel shifts
height := hiResHeight
if mixedMode {
height = hiResHeightMixed
}
size := image.Rect(0, 0, 2*hiResWidth, height)
img := image.NewRGBA(size)
for y := 0; y < height; y++ {
bytes := getHiResLine(a, y, page)
x := 0
var previousColour color.Color = color.Black
for _, b := range bytes {
shifted := b>>7 == 1
for j := uint(0); j < 7; j++ {
bit := (b >> j) & 1
colour := light
if bit == 0 {
colour = color.Black
}
if shifted {
img.Set(x, y, previousColour)
} else {
img.Set(x, y, colour)
}
img.Set(x+1, y, colour)
previousColour = colour
x += 2
}
}
}
return img
}
func snapshotHiResModeReferenceColor(a *Apple2, page int, mixedMode bool) *image.RGBA {
// As defined on "Apple II Reference Manual", page 19
height := hiResHeight
if mixedMode {
height = hiResHeightMixed
}
size := image.Rect(0, 0, hiResWidth, height)
img := image.NewRGBA(size)
// RGB values from https://mrob.com/pub/xapple2/colors.html
black := color.RGBA{0, 0, 0, 255}
violet := color.RGBA{255, 68, 253, 255}
red := color.RGBA{255, 106, 60, 255}
green := color.RGBA{20, 246, 60, 255}
blue := color.RGBA{20, 207, 253, 255}
white := color.RGBA{255, 255, 255, 255}
colorMap := [][][]color.Color{
{
/* 00 */ {black, black},
/* 01 */ {black, green},
/* 10 */ {violet, black},
/* 11 */ {white, white},
},
{
/* 00 */ {black, black},
/* 01 */ {black, red},
/* 10 */ {blue, black},
/* 11 */ {white, white},
},
}
for y := 0; y < height; y++ {
bytes := getHiResLine(a, y, page)
x := 0
previous := uint8(0)
for _, b := range bytes {
shift := b >> 7
for j := uint(0); j < 7; j++ {
bit := (b >> j) & 1
even := x%2 == 0
if even {
previous = bit
} else {
pair := colorMap[shift][(previous<<1)+bit]
img.Set(x-1, y, pair[0])
img.Set(x, y, pair[1])
}
x++
}
}
}
return img
}
func snapshotHiResModeReferenceColorSolid(a *Apple2, page int, mixedMode bool) *image.RGBA {
// As defined on "Apple II Reference Manual", page 19
// but with more solid colors and half the resolution
height := hiResHeight
if mixedMode {
height = hiResHeightMixed
}
size := image.Rect(0, 0, hiResWidth/2, height)
img := image.NewRGBA(size)
// RGB values from https://mrob.com/pub/xapple2/colors.html
black := color.RGBA{0, 0, 0, 255}
violet := color.RGBA{255, 68, 253, 255}
red := color.RGBA{255, 106, 60, 255}
green := color.RGBA{20, 246, 60, 255}
blue := color.RGBA{20, 207, 253, 255}
white := color.RGBA{255, 255, 255, 255}
colorMap := [][]color.Color{
{
/* 00 */ black,
/* 01 */ green,
/* 10 */ violet,
/* 11 */ white,
},
{
/* 00 */ black,
/* 01 */ red,
/* 10 */ blue,
/* 11 */ white,
},
}
for y := 0; y < height; y++ {
bytes := getHiResLine(a, y, page)
x := 0
previous := uint8(0)
for _, b := range bytes {
shift := b >> 7
for j := uint(0); j < 7; j++ {
bit := (b >> j) & 1
even := x%2 == 0
if even {
previous = bit
} else {
colour := colorMap[shift][(previous<<1)+bit]
img.Set(x/2, y, colour)
}
x++
}
}
}
return img
}
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