vbagx/source/vba/gb/gbMono.cpp

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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "../System.h"
#include "../NLS.h"
#include "gb.h"
#include "gbCheats.h"
#include "gbGlobals.h"
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#include "../../vbagx.h"
#include "../../menu.h"
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//#define CARLLOG
bool ColorizeGameboy = true;
// The 14-colour palette for a monochrome gameboy game
// bg black, bg dark, bg light, bg white, window black, window dark, window light, window white,
// obj0 dark, obj0 light, obj0 white, obj1 dark, obj1 light, obj1 white
// Only the user sets these colours from emulator menu, and it is only read
// by the palette setting functions.
u16 systemMonoPalette[14];
// quickly map the 12 possible indices to 15-bit colours
// bg index 0..3, obj0 index 0..3, obj1 index 0..3
// This is set internally by the palette setting functions, and used by the
// drawing functions.
//u16 gbPalette[12];
static bool HadBgPal = false, HadObj0Pal = false, HadObj1Pal = false;
const float BL[4] = {0.1f, 0.4f, 0.7f, 1.0f};
// Averages colour with white
// factor is from 0 to 1. 0 = no extra whiteness, 1 = 100% whiteness
u16 changeColourWhiteness(u16 rgb, float factor) {
if (factor==0.0f) return rgb;
int r = (rgb & 0x1f);
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r = (r * (1-factor))+(0x1f*factor);
if (r>31) {
r=31;
}
int g = ((rgb >> 5) & 0x1f);
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g = (g * (1-factor))+(0x1f*factor);
if (g>31) {
g=31;
}
int b = ((rgb >> 10) & 0x1f);
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b = (b * (1-factor))+(0x1f*factor);
if (b>31) {
b=31;
}
return r | (g << 5) | (b << 10);
}
// Brightens or darkens a colour
// factor is a multiple of normal brightness
u16 changeColourBrightness(u16 rgb, float factor) {
if (factor==1.0f) return rgb;
int bonus = 0;
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int r = (rgb & 0x1f);
r = r * factor;
if (r>31) {
r=31;
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bonus+=(r-30)/2;
}
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int g = ((rgb >> 5) & 0x1f);
g = g * factor;
if (g>31) {
g=31;
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bonus+=(g-30)/2;
}
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int b = ((rgb >> 10) & 0x1f);
b = b * factor;
if (b>31) {
b=31;
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bonus+=(b-30)/2;
}
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r+=bonus;
g+=bonus;
b+=bonus;
if (r>31) r=31;
if (g>31) g=31;
if (b>31) b=31;
return r | (g << 5) | (b << 10);
}
u8 oldBgp = 0xFC;
// Sets the brightnesses of both the background and window palettes
void gbSetBGPalette(u8 value, bool ColoursChanged=false) {
static u8 DarkestToBrightestIndex[4] = {3, 2, 1, 0};
static u8 Darkness[4] = {0, 1, 2, 3};
static float BrightnessForBrightest=1, BrightnessForDarkest=0.1; // brightness of palette when indexes are right
// darkness of each index (0 = white, 3 = black)
gbBgp[0] = value & 0x03;
gbBgp[1] = (value & 0x0c)>>2;
gbBgp[2] = (value & 0x30)>>4;
gbBgp[3] = (value & 0xc0)>>6;
// Don't mess with the palette unless we have a Mono gameboy and either the colours changed
// or the brightness palette changed.
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if ((value==oldBgp && !ColoursChanged) || gbCgbMode || gbSgbMode || !ColorizeGameboy) return;
bool dup = false;
int dupDarkness = -1;
if (value!=oldBgp) {
#ifdef CARLLOG
const char DN[5] = "3210";
log("Bg Pal: %c %c %c %c", DN[gbObp0[0]], DN[gbObp0[1]], DN[gbObp0[2]], DN[gbObp0[3]]);
#endif
// check for duplicates
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for (int i=0; i<=2; i++)
for (int j=i+1; j<=3; j++)
if (gbBgp[i]==gbBgp[j]) {
dup=true;
dupDarkness = gbBgp[i];
break;
}
// We haven't had a full palette yet, so guess...
if (dup && !HadBgPal) {
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int index;
if (gbBgp[0]>gbBgp[3]) {
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for (int Colour=0; Colour<=3; Colour++) {
index = Colour;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbBgp[index];
}
} else {
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for (int Colour=0; Colour<=3; Colour++) {
index = 3-Colour;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbBgp[index];
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbBgp[DarkestToBrightestIndex[3]]];
BrightnessForDarkest = BL[3-gbBgp[DarkestToBrightestIndex[0]]];
} else if (!dup) { // no duplicates, therefore a complete palette change
HadBgPal = true;
// now we need to map them from darkest to brightest
int Colour = 0;
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for (int darkness = 3; darkness>=0; darkness--) {
for (int index=0; index<=3; index++) {
if (gbBgp[index]==darkness) {
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbBgp[index];
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Colour++;
break;
}
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbBgp[DarkestToBrightestIndex[3]]];
BrightnessForDarkest = BL[3-gbBgp[DarkestToBrightestIndex[0]]];
} else { // duplicates implies fading in or out
// since we are really trying to fade, not change palette,
// rely on previous DarkestToBrightest list
}
}
float NewBrightnessForBrightest = BL[3-gbBgp[DarkestToBrightestIndex[3]]];
float BrightnessFactor;
float WhitenessFactor = 0;
// check if they are trying to make the palette whiter
if (dupDarkness==0) {
// Multiple colours set to white
BrightnessFactor = 0;
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float MaxWhiteness = 0;
int i;
for (i=0; i<=3; i++) {
WhitenessFactor+=BL[3-gbBgp[i]]-BL[3-i];
MaxWhiteness+=BL[3]-BL[3-i];
}
WhitenessFactor = WhitenessFactor / (MaxWhiteness+0.4f);
// check if they are trying to make the palette brighter
} else if (NewBrightnessForBrightest==1.0f && BrightnessForBrightest==1.0f) {
float NewBrightnessForDarkest = BL[3-gbBgp[DarkestToBrightestIndex[0]]];
BrightnessFactor = NewBrightnessForDarkest/BrightnessForDarkest;
// Perhaps they are trying to make the palette darker
} else {
BrightnessFactor = NewBrightnessForBrightest/BrightnessForBrightest;
}
if (WhitenessFactor) {
// BG colours
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for (int colour = 0; colour <= 3; colour++) {
u16 colourRGB = systemMonoPalette[colour];
float colourBrightness = BL[colour];
float indexBrightness = BL[3-Darkness[colour]];
colourRGB = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
gbPalette[0+DarkestToBrightestIndex[colour]] = changeColourWhiteness(colourRGB, WhitenessFactor);
}
// Window colours
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for (int colour = 0; colour <= 3; colour++) {
u16 colourRGB = systemMonoPalette[4+colour];
float colourBrightness = BL[colour];
float indexBrightness = BL[3-Darkness[colour]];
colourRGB = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
gbPalette[4+DarkestToBrightestIndex[colour]] = changeColourWhiteness(colourRGB, WhitenessFactor);
}
} else {
// BG colours
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for (int colour = 0; colour <= 3; colour++) {
u16 colourRGB = systemMonoPalette[colour];
float colourBrightness = BL[colour];
float indexBrightness = BL[3-Darkness[colour]]*BrightnessFactor;
gbPalette[0+DarkestToBrightestIndex[colour]] = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
}
// Window colours
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for (int colour = 0; colour <= 3; colour++) {
u16 colourRGB = systemMonoPalette[4+colour];
float colourBrightness = BL[colour];
float indexBrightness = BL[3-Darkness[colour]]*BrightnessFactor;
gbPalette[4+DarkestToBrightestIndex[colour]] = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
}
}
}
u8 oldObp0 = 0xFF;
void gbSetObj0Palette(u8 value, bool ColoursChanged = false) {
static u8 DarkestToBrightestIndex[3] = {3, 2, 1};
static u8 Darkness[3] = {1, 2, 3};
static float BrightnessForBrightest, BrightnessForDarkest; // brightness of palette when indexes are right
// darkness of each index (0 = white, 3 = black)
gbObp0[0] = value & 0x03;
gbObp0[1] = (value & 0x0c)>>2;
gbObp0[2] = (value & 0x30)>>4;
gbObp0[3] = (value & 0xc0)>>6;
// Don't mess with the palette unless we have a Mono gameboy and either the colours changed
// or the brightness palette changed.
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if ((value==oldObp0 && !ColoursChanged) || gbCgbMode || gbSgbMode || !ColorizeGameboy) return;
bool dup = false;
int dupDarkness = -1;
if (value!=oldObp0) {
#ifdef CARLLOG
const char DN[5] = "3210";
log("Obj0 Pal: %c %c %c", DN[gbObp0[1]], DN[gbObp0[2]], DN[gbObp0[3]]);
#endif
// check for duplicates
for (int i=1; i<=2; i++)
for (int j=i+1; j<=3; j++)
if (gbObp0[i]==gbObp0[j]) {
dup=true;
dupDarkness = gbObp0[i];
break;
}
// We haven't had a full palette yet, so guess...
if (dup && !HadObj1Pal) {
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int index;
if (gbObp0[1]>gbObp0[3]) {
for (int Colour=0; Colour<=2; Colour++) {
index = Colour+1;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp0[index];
}
} else {
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for (int Colour=0; Colour<=2; Colour++) {
index = 2-Colour+1;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp0[index];
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbObp0[DarkestToBrightestIndex[2]]];
BrightnessForDarkest = BL[3-gbObp0[DarkestToBrightestIndex[0]]];
} else if (!dup) { // no duplicates, therefore a complete brightness palette change
HadObj0Pal = true;
// now we need to map them from darkest to brightest
int Colour = 0;
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for (int darkness = 3; darkness>=0; darkness--) {
for (int index=1; index<=3; index++) {
if (gbObp0[index]==darkness) {
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp0[index];
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Colour++;
break;
}
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbObp0[DarkestToBrightestIndex[2]]];
BrightnessForDarkest = BL[3-gbObp0[DarkestToBrightestIndex[0]]];
} else { // duplicates implies fading in or out
// since we are really trying to fade, not change palette,
// rely on previous DarkestToBrightest list
}
}
float NewBrightnessForBrightest = BL[3-gbObp0[DarkestToBrightestIndex[2]]];
float BrightnessFactor;
float WhitenessFactor = 0;
// check if they are trying to make the palette whiter
if (dupDarkness==0) {
// Multiple colours set to white
BrightnessFactor = 0;
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float MaxWhiteness = 0;
int i;
for (i=1; i<=3; i++) {
WhitenessFactor+=BL[3-gbObp0[i]]-BL[3-(i-1)];
MaxWhiteness+=BL[3]-BL[3-(i-1)];
}
WhitenessFactor = WhitenessFactor / (MaxWhiteness+0.3f);
// check if they are trying to make the palette brighter
} else if (NewBrightnessForBrightest==1.0f && BrightnessForBrightest==1.0f) {
float NewBrightnessForDarkest = BL[3-gbObp0[DarkestToBrightestIndex[0]]];
BrightnessFactor = NewBrightnessForDarkest/BrightnessForDarkest;
} else {
BrightnessFactor = NewBrightnessForBrightest/BrightnessForBrightest;
}
if (WhitenessFactor) {
for (int colour = 0; colour <= 2; colour++) {
u16 colourRGB = systemMonoPalette[colour+8];
float colourBrightness = BL[colour+1];
float indexBrightness = BL[3-Darkness[colour]];
colourRGB = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
gbPalette[8+DarkestToBrightestIndex[colour]] = changeColourWhiteness(colourRGB, WhitenessFactor);
}
} else {
for (int colour = 0; colour <= 2; colour++) {
u16 colourRGB = systemMonoPalette[colour+8];
float colourBrightness = BL[colour+1];
float indexBrightness = BL[3-Darkness[colour]]*BrightnessFactor;
gbPalette[8+DarkestToBrightestIndex[colour]] = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
}
}
gbPalette[8] = 0; // always transparent
}
u8 oldObp1 = 0xFF;
void gbSetObj1Palette(u8 value, bool ColoursChanged = false) {
static u8 DarkestToBrightestIndex[3] = {3, 2, 1};
static u8 Darkness[3] = {1, 2, 3};
static float BrightnessForBrightest, BrightnessForDarkest; // brightness of palette when indexes are right
// darkness of each index (0 = white, 3 = black)
gbObp1[0] = value & 0x03;
gbObp1[1] = (value & 0x0c)>>2;
gbObp1[2] = (value & 0x30)>>4;
gbObp1[3] = (value & 0xc0)>>6;
// Don't mess with the palette unless we have a Mono gameboy and either the colours changed
// or the brightness palette changed.
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if ((value==oldObp1 && !ColoursChanged) || gbCgbMode || gbSgbMode || !ColorizeGameboy) return;
bool dup = false;
int dupDarkness = -1;
if (value!=oldObp1) {
#ifdef CARLLOG
const char DN[5] = "3210";
log("Obj1 Pal: %c %c %c", DN[gbObp1[1]], DN[gbObp1[2]], DN[gbObp1[3]]);
#endif
// check for duplicates
for (int i=1; i<=2; i++)
for (int j=i+1; j<=3; j++)
if (gbObp1[i]==gbObp1[j]) {
dup=true;
dupDarkness=gbObp1[i];
break;
}
// We haven't had a full palette yet, so guess...
if (dup && !HadObj1Pal) {
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int index;
if (gbObp1[1]>gbObp1[3]) {
for (int Colour=0; Colour<=2; Colour++) {
index = Colour+1;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp1[index];
}
} else {
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for (int Colour=0; Colour<=2; Colour++) {
index = 2-Colour+1;
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp1[index];
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbObp1[DarkestToBrightestIndex[2]]];
BrightnessForDarkest = BL[3-gbObp1[DarkestToBrightestIndex[0]]];
} else if (!dup) { // no duplicates, therefore a complete palette change
HadObj1Pal = true;
// now we need to map them from darkest to brightest
int Colour = 0;
for (int darkness = 3; darkness>=0; darkness--) {
for (int index=1; index<=3; index++) {
if (gbObp1[index]==darkness) {
DarkestToBrightestIndex[Colour]=index;
Darkness[Colour]=gbObp1[index];
Colour++;
break;
}
}
}
// brightness of brightest colour
BrightnessForBrightest = BL[3-gbObp1[DarkestToBrightestIndex[2]]];
BrightnessForDarkest = BL[3-gbObp1[DarkestToBrightestIndex[0]]];
} else { // duplicates implies fading in or out
// since we are really trying to fade, not change palette,
// rely on previous DarkestToBrightest list
}
}
float NewBrightnessForBrightest = BL[3-gbObp1[DarkestToBrightestIndex[2]]];
float BrightnessFactor;
float WhitenessFactor = 0;
// check if they are trying to make the palette whiter
if (dupDarkness==0) {
// Multiple colours set to white
BrightnessFactor = 0;
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float MaxWhiteness = 0;
int i;
for (i=1; i<=3; i++) {
WhitenessFactor+=BL[3-gbObp1[i]]-BL[3-(i-1)];
MaxWhiteness+=BL[3]-BL[3-(i-1)];
}
WhitenessFactor = WhitenessFactor / (MaxWhiteness+0.3f);
// check if they are trying to make the palette brighter
} else if (NewBrightnessForBrightest==1.0f && BrightnessForBrightest==1.0f) {
float NewBrightnessForDarkest = BL[3-gbObp1[DarkestToBrightestIndex[0]]];
BrightnessFactor = NewBrightnessForDarkest/BrightnessForDarkest;
} else {
BrightnessFactor = NewBrightnessForBrightest/BrightnessForBrightest;
}
if (WhitenessFactor) {
for (int colour = 0; colour <= 2; colour++) {
u16 colourRGB = systemMonoPalette[colour+11];
float colourBrightness = BL[colour+1];
float indexBrightness = BL[3-Darkness[colour]];
colourRGB = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
gbPalette[12+DarkestToBrightestIndex[colour]] = changeColourWhiteness(colourRGB, WhitenessFactor);
}
} else {
for (int colour = 0; colour <= 2; colour++) {
u16 colourRGB = systemMonoPalette[colour+11];
float colourBrightness = BL[colour+1];
float indexBrightness = BL[3-Darkness[colour]]*BrightnessFactor;
gbPalette[12+DarkestToBrightestIndex[colour]] = changeColourBrightness(colourRGB, indexBrightness/colourBrightness);
}
}
gbPalette[12] = 0; // always transparent
}
bool StartColorizing() {
if ((!GCSettings.colorize) || gbSgbMode || gbCgbMode) return false;
if (ColorizeGameboy) return true;
ColorizeGameboy = true;
gbSetBGPalette(oldBgp);
gbSetObj0Palette(oldObp0);
gbSetObj1Palette(oldObp1);
return true;
}
void StopColorizing() {
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if(!ColorizeGameboy || gbSgbMode || gbCgbMode) return;
for(int i = 0; i < 12; i++)
gbPalette[i] = systemGbPalette[gbPaletteOption*12+i];
ColorizeGameboy = false;
}
// convert 0xRRGGBB to our 15 bit format
u16 Make15Bit(u32 rgb) {
return ((rgb >> 19) & 0x1F) | (((rgb >> 11) & 0x1F) << 5) | (((rgb >> 3) & 0x1F) << 10);
}
u32 OldObpBright[2]={0}, OldObpMedium[2]={0}, OldObpDark[2]={0};
void gbSetSpritePal(u8 WhichPal, u32 bright, u32 medium, u32 dark) {
if (!StartColorizing()) return;
// cancel if we already set to these colours
if (WhichPal>0) {
int p = WhichPal-1;
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if (OldObpBright[p]==bright && OldObpMedium[p]==medium && OldObpDark[p]==dark) return;
}
int index = 0;
// check if we are setting both sprite palettes at once
if (WhichPal==0) {
gbSetSpritePal(1, bright, medium, dark);
gbSetSpritePal(2, bright, medium, dark);
return;
} else if (WhichPal==1) index = 8; // Obj0
else if (WhichPal==2) index=11; // Obj1
// save colours as 15 bit
systemMonoPalette[index]=Make15Bit(dark);
systemMonoPalette[index+1]=Make15Bit(medium);
systemMonoPalette[index+2]=Make15Bit(bright);
// change the brightness palette
if (WhichPal==1) {
u8 old = oldObp0;
oldObp0 +=1;
gbSetObj0Palette(old);
} else if (WhichPal==2) {
u8 old = oldObp1;
oldObp1 +=1;
gbSetObj1Palette(old);
}
}
void gbSetSpritePal(u8 WhichPal, u32 bright) {
u8 r = (bright >> 16) & 0xFF;
u8 g = (bright >> 8) & 0xFF;
u8 b = (bright >> 0) & 0xFF;
u32 medium = (((u32)(r*0.7f)) << 16) | (((u32)(g*0.7f)) << 8) | (((u32)(b*0.7f)) << 0);
u32 dark = (((u32)(r*0.4f)) << 16) | (((u32)(g*0.4f)) << 8) | (((u32)(b*0.4f)) << 0);
gbSetSpritePal(WhichPal, bright, medium, dark);
}
u32 OldBgBright=0, OldBgMedium=0, OldBgDark=0, OldBgBlack=0;
void gbSetBgPal(u8 WhichPal, u32 bright, u32 medium, u32 dark, u32 black=0x000000) {
if (!StartColorizing()) return;
if (OldBgBright==bright && OldBgMedium==medium && OldBgDark==dark && OldBgBlack==black)
return;
int index = 0;
if (WhichPal==0) {
gbSetBgPal(1, bright, medium, dark, black);
gbSetBgPal(2, bright, medium, dark, black);
return;
} else if (WhichPal==1) index = 0; // background
else if (WhichPal==2) index=4; // window
systemMonoPalette[index]=Make15Bit(black);
systemMonoPalette[index+1]=Make15Bit(dark);
systemMonoPalette[index+2]=Make15Bit(medium);
systemMonoPalette[index+3]=Make15Bit(bright);
gbSetBGPalette(oldBgp, true);
OldBgBright = bright;
OldBgMedium = medium;
OldBgDark = dark;
OldBgBlack = black;
}
void gbSetBgPal(u8 WhichPal, u32 bright) {
u8 r = (bright >> 16) & 0xFF;
u8 g = (bright >> 8) & 0xFF;
u8 b = (bright >> 0) & 0xFF;
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u32 medium = (((u32)(r*0.7f)) << 16) | (((u32)(g*0.7f)) << 8) | (((u32)(b*0.7f)) << 0);
u32 dark = (((u32)(r*0.4f)) << 16) | (((u32)(g*0.4f)) << 8) | (((u32)(b*0.4f)) << 0);
u32 black = (((u32)(r*0.1f)) << 16) | (((u32)(g*0.1f)) << 8) | (((u32)(b*0.1f)) << 0);
gbSetBgPal(WhichPal, bright, medium, dark, black);
}
// Set the whole 14-colour palette
void gbSetPalette(u32 RRGGBB[]) {
gbSetBgPal(1, RRGGBB[0], RRGGBB[1], RRGGBB[2], RRGGBB[3]);
gbSetBgPal(2, RRGGBB[4], RRGGBB[5], RRGGBB[6], RRGGBB[7]);
gbSetSpritePal(1, RRGGBB[8], RRGGBB[9], RRGGBB[10]);
gbSetSpritePal(2, RRGGBB[11], RRGGBB[12], RRGGBB[13]);
}
void gbPaletteReset() {
HadBgPal = HadObj0Pal = HadObj1Pal = false;
oldBgp = 0xFC;
oldObp0 = oldObp1 = 0xFF;
OldBgBright=0; OldBgMedium=0; OldBgDark=0; OldBgBlack=0;
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for (int i=0; i<=1; i++) {
OldObpBright[i]=OldObpMedium[i]=OldObpDark[i]=0;
}
}