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192b2f2dba
VVVVVV/desktop_version/src/Graphics.cpp
Misa 192b2f2dba Don't re-draw credits scroll background every frame 
While I was working on my over-30-FPS patch, I found out that the tower
background in the credits scroll was being completely re-drawn every
single frame, which was a bit wasteful and expensive. It's also harder
to interpolate for my over-30-FPS patch. I'm guessing this constant
re-draw was done because the math to get the surface scroll properly
working is a bit subtle, but I've figured the precise math out!

The first changes of this patch is just removing the unconditional
`map.tdrawback = true;`, and having to set `map.scrolldir` everywhere to
get the credits scrolling in the right direction but make sure the title
screen doesn't start scrolling like a descending tower, too.

After that, the first problem is that it looks like the ACTION press to
speed up the credits scrolling doesn't speed up the background, too. No
problem, just shove a `!game.press_action` check in
`gamecompletelogic()`.

However, this introduces a mini-problem, which is that NOW when you hold
down ACTION, the background appears to be slowly getting out of sync
with the credits text by a one-pixel-per-second difference. This is
actually due to the fact that, as a result of me adding the conditional,
`map.bscroll` is no longer always unconditionally getting set to 1,
while `game.creditposition` IS always unconditionally getting
decremented by 1. And when you hold down ACTION, `game.creditposition`
gets decremented by 6.

Thus, I need to set `map.bscroll` when holding down ACTION to be 7,
which is 6 plus 1.

Then we have another problem, which is that the incoming textures desync
when you press ACTION, and when you release ACTION. They desync by
precisely 6 pixels, which should be a familiar number. I (eventually)
tracked this down to `map.bypos` being updated at the same time
`map.bscroll` is, even though `map.bypos` should be updated a frame
later AFTER updating `map.bscroll`.

So I had to change the `map.bypos` update in `gamecompleteinput()` and
`gamecompletelogic()` to be `map.bypos += map.bscroll;` and then place
it before any `map.bscroll` update, thus ensuring that `map.bscroll`
updates exactly one frame before `map.ypos` does. I had to move the
`map.bypos += map.bscroll;` to be in `gamecompleteinput()`, because
`gamecompleteinput()` comes first before `gamecompletelogic()` in the
`main.cpp` game loop, otherwise the `map.bypos` update won't be delayed
by one frame for when you press ACTION to make it go faster, and thus
cause a desync when you press ACTION.

Oh and then after that, I had to make the descending tower background
draw a THIRD row of incoming tiles, otherwise you could see some black
flickering at the bottom of the screen when you held down ACTION.

All of this took me way too long to figure out, but now the credits
scroll works perfectly while being more optimized.
2020-04-30 05:04:13 -04:00

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#include "Graphics.h"
#include "Maths.h"
#include "Entity.h"
#include "Map.h"
#include "Screen.h"
#include "FileSystemUtils.h"
#include <utf8/unchecked.h>
#include <stdio.h>
#include <stdlib.h>
void Graphics::init()
{
grphx.init();
flipmode = false;
setRect(tiles_rect, 0,0,8,8);
setRect(sprites_rect, 0,0,32,32);
setRect(bfont_rect, 0,0,8,8);
setRect(bfontmask_rect, 0,0,8,8);
setRect(bg_rect, 0,0,320,240);
setRect(footerrect, 0, 230, 320, 10);
setRect(prect, 0, 0, 4, 4);
setRect(line_rect, 0,0,0,0);
setRect(tele_rect,0,0,96,96);
//We initialise a few things
linestate = 0;
trinketcolset = false;
showcutscenebars = false;
cutscenebarspos = 0;
notextoutline = false;
flipmode = false;
setflipmode = false;
//Background inits
for (int i = 0; i < 50; i++)
{
SDL_Rect s = {Sint16(fRandom() * 320), Sint16(fRandom() * 240), 2, 2};
int s2 = 4+(fRandom()*4);
stars.push_back(s);
starsspeed.push_back(s2);
SDL_Rect bb;
int bvx = 0;
int bvy = 0;
if(fRandom()*100 > 50)
{
bvx = 9 - (fRandom() * 19);
if (bvx > -6 && bvx < 6) bvx = 6;
bvx = bvx * 1.5;
setRect(bb, fRandom() * 320, fRandom() * 240, 32, 12);
}
else
{
bvy = 9 - (fRandom() * 19);
if (bvy > -6 && bvy < 6) bvy = 6;
bvy = bvy * 1.5;
setRect(bb, fRandom() * 320, fRandom() * 240, 12, 32) ;
}
float bint = 0.5 + ((fRandom() * 100) / 200);
backboxes.push_back(bb);
backboxvx.push_back(bvx);
backboxvy.push_back(bvy);
backboxint.push_back(bint);
}
backoffset = 0;
backgrounddrawn = false;
warpskip = 0;
warpfcol = 0x000000;
warpbcol = 0x000000;
spcol = 0;
spcoldel = 0;
rcol = 0;
crewframe = 0;
crewframedelay = 4;
menuoffset = 0;
resumegamemode = false;
//Fading stuff
fadebars.resize(15);
fadeamount = 0;
fademode = 0;
// initialize everything else to zero
backBuffer = NULL;
backboxrect = SDL_Rect();
bcol = 0;
bcol2 = 0;
ct = colourTransform();
foot_rect = SDL_Rect();
foregrounddrawn = false;
foregroundBuffer = NULL;
backgrounddrawn = false;
images_rect = SDL_Rect();
j = 0;
k = 0;
m = 0;
linedelay = 0;
menubuffer = NULL;
screenbuffer = NULL;
tempBuffer = NULL;
tl = point();
towerbuffer = NULL;
trinketr = 0;
trinketg = 0;
trinketb = 0;
warprect = SDL_Rect();
translucentroomname = false;
showmousecursor = true;
}
int Graphics::font_idx(uint32_t ch) {
if (font_positions.size() > 0) {
std::map<int, int>::iterator iter = font_positions.find(ch);
if (iter == font_positions.end()) {
iter = font_positions.find('?');
if (iter == font_positions.end()) {
puts("font.txt missing fallback character!");
exit(1);
}
}
return iter->second;
} else {
return ch;
}
}
Graphics::~Graphics()
{
}
void Graphics::drawspritesetcol(int x, int y, int t, int c)
{
SDL_Rect rect;
setRect(rect,x,y,sprites_rect.w,sprites_rect.h);
setcol(c);
BlitSurfaceColoured(sprites[t],NULL,backBuffer, &rect, ct);
}
void Graphics::Makebfont()
{
for (int j = 0; j < (grphx.im_bfont->h / 8); j++)
{
for (int i = 0; i < 16; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_bfont,i*8,j*8,8,8);
bfont.push_back(temp);
SDL_Surface* TempFlipped = FlipSurfaceVerticle(temp);
flipbfont.push_back(TempFlipped);
}
}
unsigned char* charmap = NULL;
size_t length;
FILESYSTEM_loadFileToMemory("graphics/font.txt", &charmap, &length);
if (charmap != NULL) {
unsigned char* current = charmap;
unsigned char* end = charmap + length;
int pos = 0;
while (current != end) {
int codepoint = utf8::unchecked::next(current);
font_positions[codepoint] = pos;
++pos;
}
}
}
int Graphics::bfontlen(uint32_t ch) {
if (ch < 32) {
return 6;
} else {
return 8;
}
}
void Graphics::MakeTileArray()
{
for(int j = 0; j <30; j++)
{
for(int i = 0; i <40; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_tiles,i*8,j*8,8,8);
tiles.push_back(temp);
}
}
for(int j = 0; j <30; j++)
{
for(int i = 0; i <40; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_tiles2,i*8,j*8,8,8);
tiles2.push_back(temp);
}
}
for(int j = 0; j <30; j++)
{
for(int i = 0; i <30; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_tiles3,i*8,j*8,8,8);
tiles3.push_back(temp);
}
}
for(int j = 0; j <60; j++)
{
for(int i = 0; i <12; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_entcolours,i*8,j*8,8,8);
entcolours.push_back(temp);
}
}
}
void Graphics::maketelearray()
{
for (int i = 0; i < 10; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_teleporter,i*96,0,96,96);
tele.push_back(temp);
}
}
void Graphics::MakeSpriteArray()
{
for(int j = 0; j <16; j++)
{
for(int i = 0; i <12; i++)
{
SDL_Surface* temp = GetSubSurface(grphx.im_sprites,i*32,j*32,32,32);
sprites.push_back(temp);
temp = GetSubSurface(grphx.im_flipsprites,i*32,j*32,32,32);
flipsprites.push_back(temp);
}
}
}
void Graphics::Print( int _x, int _y, std::string _s, int r, int g, int b, bool cen /*= false*/ ) {
return PrintAlpha(_x,_y,_s,r,g,b,255,cen);
}
void Graphics::PrintAlpha( int _x, int _y, std::string _s, int r, int g, int b, int a, bool cen /*= false*/ )
{
r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
a = clamp(a,0,255);
ct.colour = getRGBA(r, g, b, a);
if (cen)
_x = ((160 ) - ((len(_s)) / 2));
int bfontpos = 0;
int curr;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
if (flipmode)
{
BlitSurfaceColoured( flipbfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
else
{
BlitSurfaceColoured( bfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
}
}
void Graphics::bigprint( int _x, int _y, std::string _s, int r, int g, int b, bool cen, int sc )
{
r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
ct.colour = getRGB(r, g, b);
if (cen)
{
_x = std::max(160 - (int((len(_s)/ 2.0)*sc)), 0 );
}
int bfontpos = 0;
int curr;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
/*
point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
*/
if (flipmode)
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(flipbfont[font_idx(curr)], bfont[font_idx(curr)]->w *sc,bfont[font_idx(curr)]->h *sc);
SDL_Rect printrect = { Sint16((_x) + bfontpos), Sint16(_y) , Sint16(bfont_rect.w*sc), Sint16(bfont_rect.h * sc)};
BlitSurfaceColoured(tempPrint, NULL, backBuffer, &printrect, ct);
SDL_FreeSurface(tempPrint);
}
else
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(bfont[font_idx(curr)], bfont[font_idx(curr)]->w *sc,bfont[font_idx(curr)]->h *sc);
SDL_Rect printrect = { static_cast<Sint16>((_x) + bfontpos), static_cast<Sint16>(_y) , static_cast<Sint16>((bfont_rect.w*sc)+1), static_cast<Sint16>((bfont_rect.h * sc)+1)};
BlitSurfaceColoured(tempPrint, NULL, backBuffer, &printrect, ct);
SDL_FreeSurface(tempPrint);
}
bfontpos+=bfontlen(curr) *sc;
}
}
int Graphics::len(std::string t)
{
int bfontpos = 0;
std::string::iterator iter = t.begin();
while (iter != t.end()) {
int cur = utf8::unchecked::next(iter);
bfontpos += bfontlen(cur);
}
return bfontpos;
}
void Graphics::PrintOff( int _x, int _y, std::string _s, int r, int g, int b, bool cen /*= false*/ ) {
PrintOffAlpha(_x,_y,_s,r,g,b,255,cen);
}
void Graphics::PrintOffAlpha( int _x, int _y, std::string _s, int r, int g, int b, int a, bool cen /*= false*/ )
{
r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
a = clamp(a,0,255);
ct.colour = getRGB(r, g, b);
if (cen)
_x = ((160) - (len(_s) / 2))+_x;
int bfontpos = 0;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
int curr = utf8::unchecked::next(iter);
point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
if (flipmode)
{
BlitSurfaceColoured( flipbfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
else
{
BlitSurfaceColoured( bfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
}
}
void Graphics::bprint( int x, int y, std::string t, int r, int g, int b, bool cen /*= false*/ ) {
bprintalpha(x,y,t,r,g,b,255,cen);
}
void Graphics::bprintalpha( int x, int y, std::string t, int r, int g, int b, int a, bool cen /*= false*/ )
{
if (!notextoutline)
{
PrintAlpha(x, y - 1, t, 0, 0, 0, a, cen);
if (cen)
{
PrintOffAlpha(-1, y, t, 0, 0, 0, a, cen);
PrintOffAlpha(1, y, t, 0, 0, 0, a, cen);
}
else
{
PrintAlpha(x -1, y, t, 0, 0, 0, a, cen);
PrintAlpha(x +1, y, t, 0, 0, 0, a, cen);
}
PrintAlpha(x, y+1, t, 0, 0, 0, a, cen);
}
PrintAlpha(x, y, t, r, g, b, a, cen);
}
void Graphics::RPrint( int _x, int _y, std::string _s, int r, int g, int b, bool cen /*= false*/ )
{
r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
ct.colour = getRGB(r, g, b);
if (cen)
_x = ((308) - (_s.length() / 2));
int bfontpos = 0;
int curr;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
if (flipmode)
{
BlitSurfaceColoured( flipbfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
else
{
BlitSurfaceColoured( bfont[font_idx(curr)], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
}
}
void Graphics::printcrewname( int x, int y, int t )
{
//Print the name of crew member t in the right colour
switch(t)
{
case 0:
Print(x, y, "Viridian", 16, 240, 240,false );
break;
case 1:
Print(x, y, "Violet", 240, 16, 240,false);
break;
case 2:
Print(x, y, "Vitellary", 240, 240, 16,false);
break;
case 3:
Print(x, y, "Vermilion", 240, 16, 16,false);
break;
case 4:
Print(x, y, "Verdigris", 16, 240, 16,false);
break;
case 5:
Print(x, y, "Victoria", 16, 16, 240,false);
break;
}
}
void Graphics::printcrewnamedark( int x, int y, int t )
{
//Print the name of crew member t as above, but in black and white
switch(t)
{
case 0:
Print(x, y, "Viridian", 128,128,128,false);
break;
case 1:
Print(x, y, "Violet", 128,128,128,false);
break;
case 2:
Print(x, y, "Vitellary", 128,128,128,false);
break;
case 3:
Print(x, y, "Vermilion", 128,128,128,false);
break;
case 4:
Print(x, y, "Verdigris", 128,128,128,false);
break;
case 5:
Print(x, y, "Victoria", 128,128,128,false);
break;
}
}
void Graphics::printcrewnamestatus( int x, int y, int t )
{
//Print the status of crew member t in the right colour
switch(t)
{
case 0:
Print(x, y, "(that's you!)", 12, 140, 140,false);
break;
case 1:
Print(x, y, "Rescued!", 140, 12, 140,false);
break;
case 2:
Print(x, y, "Rescued!", 140, 140, 12,false);
break;
case 3:
Print(x, y, "Rescued!", 140, 12, 12,false);
break;
case 4:
Print(x, y, "Rescued!", 12, 140, 12,false);
break;
case 5:
Print(x, y, "Rescued!", 12, 12, 140,false);
break;
}
}
void Graphics::drawsprite( int x, int y, int t, int r, int g, int b )
{
SDL_Rect rect = { Sint16(x), Sint16(y), sprites_rect.w, sprites_rect.h };
setcolreal(getRGB(r,g,b));
BlitSurfaceColoured(sprites[t], NULL, backBuffer, &rect, ct);
}
void Graphics::drawtile( int x, int y, int t )
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles[t], NULL, backBuffer, &rect);
}
void Graphics::drawtile2( int x, int y, int t )
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles2[t], NULL, backBuffer, &rect);
}
void Graphics::drawtile3( int x, int y, int t, int off )
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles3[t+(off*30)], NULL, backBuffer, &rect);
}
void Graphics::drawentcolours( int x, int y, int t)
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(entcolours[t], NULL, backBuffer, &rect);
}
void Graphics::drawtowertile( int x, int y, int t )
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles2[t], NULL, towerbuffer, &rect);
}
void Graphics::drawtowertile3( int x, int y, int t, int off )
{
SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles3[t+(off*30)], NULL, towerbuffer, &rect);
}
void Graphics::drawgui()
{
textboxcleanup();
//Draw all the textboxes to the screen
for (size_t i = 0; i<textbox.size(); i++)
{
//This routine also updates the textboxs
textbox[i].update();
if (textbox[i].tm == 2 && textbox[i].tl <= 0.5)
{
textbox.erase(textbox.begin() + i);
i--;
continue;
}
if (textbox[i].r == 0 && textbox[i].g == 0 && textbox[i].b == 0)
{
if(flipmode)
{
for (j = 0; j < (int) textbox[i].line.size(); j++)
{
Print(textbox[i].xp + 8, textbox[i].yp + (textbox[i].line.size()*8) - (j * 8), textbox[i].line[j], 196, 196, 255 - help.glow);
}
}
else
{
for (j = 0; j < (int) textbox[i].line.size(); j++)
{
Print(textbox[i].xp + 8, textbox[i].yp + 8 + (j * 8), textbox[i].line[j], 196, 196, 255 - help.glow);
}
}
}
else
{
FillRect(backBuffer,textbox[i].textrect, textbox[i].r/6, textbox[i].g/6, textbox[i].b / 6 );
drawcoloredtile(textbox[i].xp, textbox[i].yp, 40, textbox[i].r, textbox[i].g, textbox[i].b);
drawcoloredtile(textbox[i].xp+textbox[i].w-8, textbox[i].yp, 42, textbox[i].r, textbox[i].g, textbox[i].b);
drawcoloredtile(textbox[i].xp, textbox[i].yp+textbox[i].h-8, 45, textbox[i].r, textbox[i].g, textbox[i].b);
drawcoloredtile(textbox[i].xp+textbox[i].w-8, textbox[i].yp+textbox[i].h-8, 47, textbox[i].r, textbox[i].g, textbox[i].b);
for (int k = 0; k < textbox[i].lw; k++)
{
drawcoloredtile(textbox[i].xp + 8 + (k * 8), textbox[i].yp, 41, textbox[i].r, textbox[i].g, textbox[i].b);
drawcoloredtile(textbox[i].xp + 8 + (k * 8), textbox[i].yp+textbox[i].h-8, 46, textbox[i].r, textbox[i].g, textbox[i].b);
}
for (size_t k = 0; k < textbox[i].line.size(); k++)
{
drawcoloredtile(textbox[i].xp, textbox[i].yp + 8 + (k * 8), 43, textbox[i].r, textbox[i].g, textbox[i].b);
drawcoloredtile(textbox[i].xp + textbox[i].w-8, textbox[i].yp + 8 + (k * 8), 44, textbox[i].r, textbox[i].g, textbox[i].b);
}
if(flipmode)
{
for (j = 0; j < (int) textbox[i].line.size(); j++)
{
Print(textbox[i].xp + 8, textbox[i].yp + (textbox[i].line.size()*8) - (j * 8), textbox[i].line[j], textbox[i].r, textbox[i].g, textbox[i].b);
}
}
else
{
for (j = 0; j < (int) textbox[i].line.size(); j++)
{
Print(textbox[i].xp + 8, textbox[i].yp +8 + (j * 8), textbox[i].line[j], textbox[i].r, textbox[i].g, textbox[i].b);
}
}
}
if ((textbox[i].yp == 12 || textbox[i].yp == 180) && textbox[i].r == 165)
{
if (flipmode)
{
drawimage(5, 0, 180, true);
}
else
{
drawimage(0, 0, 12, true);
}
}
else if ((textbox[i].yp == 12 || textbox[i].yp == 180) && textbox[i].g == 165)
{
if (flipmode)
{
drawimage(6, 0, 180, true);
}
else
{
drawimage(4, 0, 12, true);
}
}
if (flipmode)
{
if (textbox[i].r == 175 && textbox[i].g == 175)
{
//purple guy
drawsprite(80 - 6, 64 + 48 + 4, 6, 220- help.glow/4 - int(fRandom()*20), 120- help.glow/4, 210 - help.glow/4);
}
else if (textbox[i].r == 175 && textbox[i].b == 175)
{
//red guy
drawsprite(80 - 6, 64 + 48+ 4, 6, 255 - help.glow/8, 70 - help.glow/4, 70 - help.glow / 4);
}
else if (textbox[i].r == 175)
{
//green guy
drawsprite(80 - 6, 64 + 48 + 4, 6, 120 - help.glow / 4 - int(fRandom() * 20), 220 - help.glow / 4, 120 - help.glow / 4);
}
else if (textbox[i].g == 175)
{
//yellow guy
drawsprite(80 - 6, 64 + 48+ 4, 6, 220- help.glow/4 - int(fRandom()*20), 210 - help.glow/4, 120- help.glow/4);
}
else if (textbox[i].b == 175)
{
//blue guy
drawsprite(80 - 6, 64 + 48+ 4, 6, 75, 75, 255- help.glow/4 - int(fRandom()*20));
}
}
else
{
if (textbox[i].r == 175 && textbox[i].g == 175)
{
//purple guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 220- help.glow/4 - int(fRandom()*20), 120- help.glow/4, 210 - help.glow/4);
}
else if (textbox[i].r == 175 && textbox[i].b == 175)
{
//red guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 255 - help.glow/8, 70 - help.glow/4, 70 - help.glow / 4);
}
else if (textbox[i].r == 175)
{
//green guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 120 - help.glow / 4 - int(fRandom() * 20), 220 - help.glow / 4, 120 - help.glow / 4);
}
else if (textbox[i].g == 175)
{
//yellow guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 220- help.glow/4 - int(fRandom()*20), 210 - help.glow/4, 120- help.glow/4);
}
else if (textbox[i].b == 175)
{
//blue guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 75, 75, 255- help.glow/4 - int(fRandom()*20));
}
}
}
}
void Graphics::drawimagecol( int t, int xp, int yp, int r = 0, int g = 0, int b = 0, bool cent/*= false*/ )
{
SDL_Rect trect;
if(r+g+b != 0)
{
RGBf(r,g,b);
}
point tpoint;
if (cent)
{
tpoint.x = 160 - int(images[t]->w / 2);
tpoint.y = yp;
trect.x = tpoint.x ;
trect.y = tpoint.y;
trect.w = images[t]->w;
trect.h= images[t]->h;
BlitSurfaceColoured(images[t], NULL, backBuffer, &trect, ct);
}
else
{
trect.x = xp;
trect.y = yp;
trect.w = images[t]->w;
trect.h = images[t]->h;
BlitSurfaceColoured(images[t], NULL, backBuffer, &trect, ct);
}
}
void Graphics::drawimage( int t, int xp, int yp, bool cent/*=false*/ )
{
SDL_Rect trect;
if (cent)
{
trect.x = 160 - int(images[t]->w / 2);
trect.y = yp;
trect.w = images[t]->w;
trect.h = images[t]->h;
BlitSurfaceStandard(images[t], NULL, backBuffer, &trect);
}
else
{
trect.x = xp;
trect.y = yp;
trect.w = images[t]->w;
trect.h= images[t]->h;
BlitSurfaceStandard(images[t], NULL, backBuffer, &trect);
}
}
void Graphics::drawpartimage( int t, int xp, int yp, int wp, int hp)
{
SDL_Rect trect;
trect.x = xp;
trect.y = yp;
trect.w = wp;
trect.h= hp;
SDL_Rect trect2;
trect2.x = 0;
trect2.y = 0;
trect2.w = wp;
trect2.h= hp;
BlitSurfaceStandard(images[t], &trect2, backBuffer, &trect);
}
void Graphics::cutscenebars()
{
if (showcutscenebars)
{
cutscenebarspos += 25;
cutscenebarspos = std::min(cutscenebarspos, 361);
FillRect(backBuffer, 0, 0, cutscenebarspos, 16, 0x000000);
FillRect(backBuffer, 360-cutscenebarspos, 224, cutscenebarspos, 16, 0x000000);
}
else
{
//disappearing
if (cutscenebarspos > 0)
{
cutscenebarspos -= 25;
cutscenebarspos = std::max(cutscenebarspos, 0);
//draw
FillRect(backBuffer, 0, 0, cutscenebarspos, 16, 0x000000);
FillRect(backBuffer, 360-cutscenebarspos, 224, cutscenebarspos, 16, 0x000000);
}
}
}
void Graphics::drawcrewman( int x, int y, int t, bool act, bool noshift /*=false*/ )
{
if (!act)
{
if (noshift)
{
if (flipmode)
{
drawspritesetcol(x, y, 14, 19);
}
else
{
drawspritesetcol(x, y, 12, 19);
}
}
else
{
if (flipmode)
{
drawspritesetcol(x - 8, y, 14, 19);
}
else
{
drawspritesetcol(x - 8, y, 12, 19);
}
}
}
else
{
if (flipmode) crewframe += 6;
switch(t)
{
case 0:
drawspritesetcol(x, y, crewframe, 0);
break;
case 1:
drawspritesetcol(x, y, crewframe, 20);
break;
case 2:
drawspritesetcol(x, y, crewframe, 14);
break;
case 3:
drawspritesetcol(x, y, crewframe, 15);
break;
case 4:
drawspritesetcol(x, y, crewframe, 13);
break;
case 5:
drawspritesetcol(x, y, crewframe, 16);
break;
}
if (flipmode) crewframe -= 6;
}
}
void Graphics::drawpixeltextbox( int x, int y, int w, int h, int w2, int h2, int r, int g, int b, int xo, int yo )
{
//given these parameters, draw a textbox with a pixel width
//madrect.x = x; madrect.y = y; madrect.w = w; madrect.h = h;
FillRect(backBuffer,x,y,w,h, r/6, g/6, b/6 );
for (k = 0; k < w2-2; k++)
{
drawcoloredtile(x + 8-xo + (k * 8), y, 41, r, g, b);
drawcoloredtile(x + 8-xo + (k * 8), y + (h) - 8, 46, r, g, b);
}
for (k = 0; k < h2-2; k++)
{
drawcoloredtile(x, y + 8-yo + (k * 8), 43, r, g, b);
drawcoloredtile(x + (w) - 8, y + 8-yo + (k * 8), 44, r, g, b);
}
drawcoloredtile(x, y, 40, r, g, b);
drawcoloredtile(x + (w) - 8, y, 42, r, g, b);
drawcoloredtile(x, y + (h) - 8, 45, r, g, b);
drawcoloredtile(x + (w) - 8, y + (h) - 8, 47, r, g, b);
}
void Graphics::drawcustompixeltextbox( int x, int y, int w, int h, int w2, int h2, int r, int g, int b, int xo, int yo )
{
//given these parameters, draw a textbox with a pixel width
FillRect(backBuffer,x,y,w,h, r/6, g/6, b/6 );
for (k = 0; k < w2-2; k++)
{
drawcoloredtile(x + 8-xo + (k * 8), y, 41, r, g, b);
drawcoloredtile(x + 8-xo + (k * 8), y + (h) - 8, 46, r, g, b);
}
drawcoloredtile(x+ (w) - 16, y, 41, r, g, b);
drawcoloredtile(x+ (w) - 16, y + (h) - 8, 46, r, g, b);
drawcoloredtile(x+ (w) - 24, y, 41, r, g, b);
drawcoloredtile(x+ (w) - 24, y + (h) - 8, 46, r, g, b);
for (k = 0; k < h2-2; k++)
{
drawcoloredtile(x, y + 8-yo + (k * 8), 43, r, g, b);
drawcoloredtile(x + (w) - 8, y + 8-yo + (k * 8), 44, r, g, b);
}
drawcoloredtile(x, y + (h) - 16, 43, r, g, b);
drawcoloredtile(x + (w) - 8, y + (h) - 16, 44, r, g, b);
drawcoloredtile(x, y + (h) - 24, 43, r, g, b);
drawcoloredtile(x + (w) - 8, y + (h) - 24, 44, r, g, b);
drawcoloredtile(x, y, 40, r, g, b);
drawcoloredtile(x + (w) - 8, y, 42, r, g, b);
drawcoloredtile(x, y + (h) - 8, 45, r, g, b);
drawcoloredtile(x + (w) - 8, y + (h) - 8, 47, r, g, b);
}
void Graphics::drawtextbox( int x, int y, int w, int h, int r, int g, int b )
{
//given these parameters, draw a textbox
FillRect(backBuffer,x,y,w*8,h*8, r/6, g/6, b/6 );
drawcoloredtile(x, y, 40, r, g, b);
drawcoloredtile(x + (w*8) - 8, y, 42, r, g, b);
drawcoloredtile(x, y + (h*8) - 8, 45, r, g, b);
drawcoloredtile(x + (w*8) - 8, y + (h*8) - 8, 47, r, g, b);
for (int k = 0; k < w-2; k++)
{
drawcoloredtile(x + 8 + (k * 8), y, 41, r, g, b);
drawcoloredtile(x + 8 + (k * 8), y + (h * 8) - 8, 46, r, g, b);
}
for (int k = 0; k < h-2; k++)
{
drawcoloredtile(x, y + 8 + (k * 8), 43, r, g, b);
drawcoloredtile(x + (w * 8) - 8, y + 8 + (k * 8), 44, r, g, b);
}
}
void Graphics::textboxactive()
{
//Remove all but the most recent textbox
for (int i = 0; i < (int) textbox.size(); i++)
{
if (m != i) textbox[i].remove();
}
}
void Graphics::textboxremovefast()
{
//Remove all textboxes
for (size_t i = 0; i < textbox.size(); i++)
{
textbox[i].removefast();
}
}
void Graphics::textboxremove()
{
//Remove all textboxes
for (size_t i = 0; i < textbox.size(); i++)
{
textbox[i].remove();
}
}
void Graphics::textboxtimer( int t )
{
textbox[m].timer=t;
}
void Graphics::addline( std::string t )
{
textbox[m].addline(t);
}
void Graphics::textboxadjust()
{
textbox[m].adjust();
}
void Graphics::createtextbox( std::string t, int xp, int yp, int r/*= 255*/, int g/*= 255*/, int b /*= 255*/ )
{
m = textbox.size();
if(m<20)
{
textboxclass text;
text.line.push_back(t);
text.xp = xp;
int length = utf8::unchecked::distance(t.begin(), t.end());
if (xp == -1) text.xp = 160 - (((length / 2) + 1) * 8);
text.yp = yp;
text.initcol(r, g, b);
text.resize();
textbox.push_back(text);
}
}
void Graphics::drawfade()
{
if ((fademode == 1)||(fademode == 4))
{
FillRect(backBuffer, 0, 0, backBuffer->w, backBuffer->h, 0x000000);
}
else if(fademode==3)
{
for (int i = 0; i < 15; i++)
{
FillRect(backBuffer, fadebars[i], i * 16, fadeamount, 16, 0x000000 );
}
}
else if(fademode==5 )
{
for (int i = 0; i < 15; i++)
{
FillRect(backBuffer, fadebars[i]-fadeamount, i * 16, 500, 16, 0x000000 );
}
}
}
void Graphics::processfade()
{
if (fademode > 1)
{
if (fademode == 2)
{
//prepare fade out
for (int i = 0; i < 15; i++)
{
fadebars[i] = -int(fRandom() * 12) * 8;
}
fadeamount = 0;
fademode = 3;
}
else if (fademode == 3)
{
fadeamount += 24;
if (fadeamount > 416)
{
fademode = 1; //faded
}
}
else if (fademode == 4)
{
//prepare fade in
for (int i = 0; i < 15; i++)
{
fadebars[i] = 320 + int(fRandom() * 12) * 8;
}
fadeamount = 416;
fademode = 5;
}
else if (fademode == 5)
{
fadeamount -= 24;
if (fadeamount <= 0)
{
fademode = 0; //normal
}
}
}
}
void Graphics::drawmenu( int cr, int cg, int cb, int division /*= 30*/ )
{
for (size_t i = 0; i < game.menuoptions.size(); i++)
{
if ((int) i == game.currentmenuoption)
{
//Draw it highlighted
if (game.menuoptions[i].active)
{
std::string tempstring = game.menuoptions[i].text;
std::transform(tempstring.begin(), tempstring.end(),tempstring.begin(), ::toupper);
tempstring = std::string("[ ") + tempstring + std::string(" ]");
Print(110 + (i * division) - 16 +game.menuxoff, 140 + (i * 12) +game.menuyoff, tempstring, cr, cg, cb);
}
else
{
std::string tempstring = game.menuoptions[i].text;
tempstring = "[ " + tempstring + " ]";
//Draw it in gray
Print(110 + (i * division) - 16 +game.menuxoff, 140 + (i * 12)+game.menuyoff, tempstring, 128, 128, 128);
}
}
else
{
//Draw it normally
if (game.menuoptions[i].active)
{
Print(110 + (i * division) +game.menuxoff, 140 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 140 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
}
}
}
}
void Graphics::drawlevelmenu( int cr, int cg, int cb, int division /*= 30*/ )
{
for (size_t i = 0; i < game.menuoptions.size(); i++)
{
if ((int) i == game.currentmenuoption)
{
if(game.menuoptions.size()-i<=3){
//Draw it highlighted
if (game.menuoptions[i].active)
{
std::string tempstring = game.menuoptions[i].text;
std::transform(tempstring.begin(), tempstring.end(),tempstring.begin(), ::toupper);
tempstring = std::string("[ ") + tempstring + std::string(" ]");
Print(110 + (i * division) - 16 +game.menuxoff, 140+8 + (i * 12) +game.menuyoff, tempstring, cr, cg, cb);
}
else
{
std::string tempstring = game.menuoptions[i].text;
tempstring = "[ " + tempstring + " ]";
//Draw it in gray
Print(110 + (i * division) - 16 +game.menuxoff, 140+8 + (i * 12)+game.menuyoff, tempstring, 128, 128, 128);
}
}else{
//Draw it highlighted
if (game.menuoptions[i].active)
{
std::string tempstring = game.menuoptions[i].text;
std::transform(tempstring.begin(), tempstring.end(),tempstring.begin(), ::toupper);
tempstring = std::string("[ ") + tempstring + std::string(" ]");
Print(110 + (i * division) - 16 +game.menuxoff, 144 + (i * 12) +game.menuyoff, tempstring, cr, cg, cb);
}
else
{
std::string tempstring = game.menuoptions[i].text;
tempstring = "[ " + tempstring + " ]";
//Draw it in gray
Print(110 + (i * division) - 16 +game.menuxoff, 144 + (i * 12)+game.menuyoff, tempstring, 128, 128, 128);
}
}
}
else
{
if(game.menuoptions.size()-i<=3){
//Draw it normally
if (game.menuoptions[i].active)
{
Print(110 + (i * division) +game.menuxoff, 140+8 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 140+8 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
}
}else{
//Draw it normally
if (game.menuoptions[i].active)
{
Print(110 + (i * division) +game.menuxoff, 144 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 144 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
}
}
}
}
}
void Graphics::drawcoloredtile( int x, int y, int t, int r, int g, int b )
{
setcolreal(getRGB(r,g,b));
SDL_Rect rect;
setRect(rect,x,y,tiles_rect.w,tiles_rect.h);
BlitSurfaceColoured(tiles[t],NULL, backBuffer, &rect, ct );
}
bool Graphics::Hitest(SDL_Surface* surface1, point p1, SDL_Surface* surface2, point p2)
{
//find rectangle where they intersect:
int r1_left = p1.x;
int r1_right = r1_left + surface1->w;
int r2_left = p2.x;
int r2_right = r2_left + surface2->w;
int r1_bottom = p1.y;
int r1_top = p1.y + surface1->h;
int r2_bottom = p2.y;
int r2_top = p2.y + surface2->h;
bool intersection = intersectRect(r1_left, r1_right, r1_bottom, r1_top, r2_left, r2_right, r2_bottom, r2_top);
if(intersection)
{
int r3_left = std::max(r1_left, r2_left);
int r3_top = std::min(r1_top, r2_top);
int r3_right = std::min(r1_right, r2_right);
int r3_bottom= std::max(r1_bottom, r2_bottom);
//for every pixel inside rectangle
for(int x = r3_left; x < r3_right; x++)
{
for(int y = r3_bottom; y < r3_top; y++)
{
Uint32 pixel1 = ReadPixel(surface1 , x - p1.x, y - p1.y);
Uint32 pixel2 = ReadPixel(surface2 , x - p2.x, y - p2.y);
if ((pixel1 & 0x000000FF) && (pixel2 & 0x000000FF))
{
return true;
}
}
}
return false;
}
else
{
return false;
}
}
void Graphics::drawgravityline( int t )
{
if (obj.entities[t].life == 0)
{
switch(linestate)
{
case 0:
FillRect(backBuffer,line_rect, getRGB(200-20, 200-20, 200-20));
break;
case 1:
FillRect(backBuffer,line_rect, getRGB(225-30, 245-30, 245-30));
break;
case 2:
FillRect(backBuffer,line_rect, getRGB(245-30, 245-30, 225-30));
break;
case 3:
FillRect(backBuffer,line_rect, getRGB(164-10, 200-20, 200-20));
break;
case 4:
FillRect(backBuffer,line_rect, getRGB(224-20, 255-30, 196-20));
break;
case 5:
FillRect(backBuffer,line_rect, getRGB(205-20, 235-30, 196-20));
break;
case 6:
FillRect(backBuffer,line_rect, getRGB(164-10, 164-10, 164-10));
break;
case 7:
FillRect(backBuffer,line_rect, getRGB(225-30, 245-30, 205-20));
break;
case 8:
FillRect(backBuffer,line_rect, getRGB(205-20, 255-30, 225-30));
break;
case 9:
FillRect(backBuffer,line_rect, getRGB(245-30, 245-30, 245-30));
break;
}
}
else
{
FillRect(backBuffer,line_rect, getRGB(96, 96, 96));
}
}
void Graphics::drawtrophytext()
{
int temp, temp2, temp3;
if (obj.trophytext < 15)
{
temp = (196 * obj.trophytext) / 15;
temp2 = (196 * obj.trophytext) / 15;
temp3 = ((255 - help.glow) * obj.trophytext) / 15;
}
else
{
temp = 196;
temp2 = 196;
temp3 = 255 - help.glow;
}
switch(obj.trophytype)
{
case 1:
Print( -1, 6, "SPACE STATION 1 MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 2:
Print( -1, 6, "LABORATORY MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 3:
Print( -1, 6, "THE TOWER MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 4:
Print( -1, 6, "SPACE STATION 2 MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 5:
Print( -1, 6, "WARP ZONE MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 6:
Print( -1, 6, "FINAL LEVEL MASTERED", temp, temp2, temp3, true);
Print( -1, 16, "Obtain a V Rank in this Time Trial", temp, temp2, temp3, true);
break;
case 7:
Print( -1, 6, "GAME COMPLETE", temp, temp2, temp3, true);
Print( -1, 16, "Complete the game", temp, temp2, temp3, true);
break;
case 8:
Print( -1, 6, "FLIP MODE COMPLETE", temp, temp2, temp3, true);
Print( -1, 16, "Complete the game in flip mode", temp, temp2, temp3, true);
break;
case 9:
Print( -1, 11, "Win with less than 50 deaths", temp, temp2, temp3, true);
break;
case 10:
Print( -1, 11, "Win with less than 100 deaths", temp, temp2, temp3, true);
break;
case 11:
Print( -1, 11, "Win with less than 250 deaths", temp, temp2, temp3, true);
break;
case 12:
Print( -1, 11, "Win with less than 500 deaths", temp, temp2, temp3, true);
break;
case 13:
Print( -1, 11, "Last 5 seconds on the Super Gravitron", temp, temp2, temp3, true);
break;
case 14:
Print( -1, 11, "Last 10 seconds on the Super Gravitron", temp, temp2, temp3, true);
break;
case 15:
Print( -1, 11, "Last 15 seconds on the Super Gravitron", temp, temp2, temp3, true);
break;
case 16:
Print( -1, 11, "Last 20 seconds on the Super Gravitron", temp, temp2, temp3, true);
break;
case 17:
Print( -1, 11, "Last 30 seconds on the Super Gravitron", temp, temp2, temp3, true);
break;
case 18:
Print( -1, 11, "Last 1 minute on the Super Gravitron", temp, temp2, temp3, true);
break;
case 20:
Print( -1, 6, "MASTER OF THE UNIVERSE", temp, temp2, temp3, true);
Print( -1, 16, "Complete the game in no death mode", temp, temp2, temp3, true);
break;
}
}
void Graphics::drawentities()
{
//Update line colours!
if (linedelay <= 0)
{
linestate++;
if (linestate >= 10) linestate = 0;
linedelay = 2;
}
else
{
linedelay--;
}
point tpoint;
SDL_Rect drawRect;
std::vector<SDL_Surface*> *tilesvec;
if (map.custommode)
{
tilesvec = &entcolours;
}
else
{
tilesvec = &tiles;
}
std::vector<SDL_Surface*> *spritesvec;
if (flipmode)
{
spritesvec = &flipsprites;
}
else
{
spritesvec = &sprites;
}
int yoff;
if (map.towermode)
{
yoff = map.ypos;
}
else
{
yoff = 0;
}
trinketcolset = false;
for (int i = obj.entities.size() - 1; i >= 0; i--)
{
if (obj.entities[i].invis)
{
continue;
}
switch (obj.entities[i].size)
{
case 0:
// Sprites
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
setcol(obj.entities[i].colour);
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
//screenwrapping!
if (map.warpx ||
(map.towermode && !map.minitowermode
&& map.ypos >= 500 && map.ypos <= 5000)) //The "wrapping" area of the tower
{
if (tpoint.x < 0)
{
tpoint.x += 320;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
}
else if (tpoint.x > 300)
{
tpoint.x -= 320;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
}
}
else if (map.warpy)
{
if (tpoint.y < 0)
{
tpoint.y += 230;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
}
else if (tpoint.y > 210)
{
tpoint.y -= 230;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
}
}
break;
case 1:
// Tiles
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceStandard(tiles[obj.entities[i].drawframe],NULL, backBuffer, &drawRect);
break;
case 2:
case 8:
{
// Special: Moving platform, 4 tiles or 8 tiles
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
int thiswidth = 4;
if (obj.entities[i].size == 8)
{
thiswidth = 8;
}
for (int ii = 0; ii < thiswidth; ii++)
{
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
drawRect.x += 8 * ii;
BlitSurfaceStandard((*tilesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect);
}
break;
}
case 3: // Big chunky pixels!
prect.x = obj.entities[i].xp;
prect.y = obj.entities[i].yp - yoff;
//A seperate index of colours, for simplicity
if(obj.entities[i].colour==1)
{
FillRect(backBuffer, prect, (fRandom() * 64), 10, 10);
}
else if (obj.entities[i].colour == 2)
{
FillRect(backBuffer,prect, int(160- help.glow/2 - (fRandom()*20)), 200- help.glow/2, 220 - help.glow);
}
break;
case 4: // Small pickups
drawhuetile(obj.entities[i].xp, obj.entities[i].yp - yoff, obj.entities[i].tile, obj.entities[i].colour);
break;
case 5: //Horizontal Line
line_rect.x = obj.entities[i].xp;
line_rect.y = obj.entities[i].yp - yoff;
line_rect.w = obj.entities[i].w;
line_rect.h = 1;
drawgravityline(i);
break;
case 6: //Vertical Line
line_rect.x = obj.entities[i].xp;
line_rect.y = obj.entities[i].yp - yoff;
line_rect.w = 1;
line_rect.h = obj.entities[i].h;
drawgravityline(i);
break;
case 7: //Teleporter
drawtele(obj.entities[i].xp, obj.entities[i].yp - yoff, obj.entities[i].drawframe, obj.entities[i].colour);
break;
//case 8: // Special: Moving platform, 8 tiles
// Note: This code is in the 4-tile code
break;
case 9: // Really Big Sprite! (2x2)
setcol(obj.entities[i].colour);
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
tpoint.x = obj.entities[i].xp+32;
tpoint.y = obj.entities[i].yp - yoff;
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe+1],NULL, backBuffer, &drawRect, ct);
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp+32 - yoff;
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe+12],NULL, backBuffer, &drawRect, ct);
tpoint.x = obj.entities[i].xp+32;
tpoint.y = obj.entities[i].yp+32 - yoff;
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe + 13],NULL, backBuffer, &drawRect, ct);
break;
case 10: // 2x1 Sprite
setcol(obj.entities[i].colour);
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
tpoint.x = obj.entities[i].xp+32;
tpoint.y = obj.entities[i].yp - yoff;
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe+1],NULL, backBuffer, &drawRect, ct);
break;
case 11: //The fucking elephant
setcol(obj.entities[i].colour);
drawimagecol(3, obj.entities[i].xp, obj.entities[i].yp - yoff);
break;
case 12: // Regular sprites that don't wrap
tpoint.x = obj.entities[i].xp;
tpoint.y = obj.entities[i].yp - yoff;
setcol(obj.entities[i].colour);
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
//if we're outside the screen, we need to draw indicators
if (obj.entities[i].xp < -20 && obj.entities[i].vx > 0)
{
if (obj.entities[i].xp < -100)
{
tpoint.x = -5 + (int(( -obj.entities[i].xp) / 10));
}
else
{
tpoint.x = 5;
}
tpoint.y = tpoint.y+4;
setcol(23);
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured(tiles[1167],NULL, backBuffer, &drawRect, ct);
}
else if (obj.entities[i].xp > 340 && obj.entities[i].vx < 0)
{
if (obj.entities[i].xp > 420)
{
tpoint.x = 320 - (int(( obj.entities[i].xp-320) / 10));
}
else
{
tpoint.x = 310;
}
tpoint.y = tpoint.y+4;
setcol(23);
//
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured(tiles[1166],NULL, backBuffer, &drawRect, ct);
}
break;
case 13:
{
//Special for epilogue: huge hero!
tpoint.x = obj.entities[i].xp; tpoint.y = obj.entities[i].yp - yoff;
setcol(obj.entities[i].colour);
SDL_Rect drawRect = {Sint16(obj.entities[i].xp ), Sint16(obj.entities[i].yp - yoff), Sint16(sprites_rect.x * 6), Sint16(sprites_rect.y * 6 ) };
SDL_Surface* TempSurface = ScaleSurface( (*spritesvec)[obj.entities[i].drawframe], 6 * sprites_rect.w,6* sprites_rect.h );
BlitSurfaceColoured(TempSurface, NULL , backBuffer, &drawRect, ct );
SDL_FreeSurface(TempSurface);
break;
}
}
}
}
void Graphics::drawbackground( int t )
{
int temp = 0;
switch(t)
{
case 1:
//Starfield
FillRect(backBuffer,0x00000);
for (int i = 0; i < 50; i++)
{
stars[i].w = 2;
stars[i].h = 2;
if (starsspeed[i] <= 6)
{
FillRect(backBuffer,stars[i], getRGB(0x22,0x22,0x22));
}
else
{
FillRect(backBuffer,stars[i], getRGB(0x55,0x55,0x55));
}
stars[i].x -= Sint16(starsspeed[i]);
if (stars[i].x < -10)
{
stars[i].x += 340;
stars[i].y = int(fRandom() * 240);
stars[i].w = 2;
starsspeed[i] = 4+int(fRandom()*4);
}
}
break;
case 2:
//Lab
switch(rcol)
{
//Akward ordering to match tileset
case 0:
bcol2 = RGBflip(0, 16*backboxint[0], 16*backboxint[0]);
break; //Cyan
case 1:
bcol2 = RGBflip(16*backboxint[0], 0, 0);
break; //Red
case 2:
bcol2 = RGBflip(16*backboxint[0], 0, 16*backboxint[0]);
break; //Purple
case 3:
bcol2 = RGBflip(0, 0, 16*backboxint[0]);
break; //Blue
case 4:
bcol2 = RGBflip(16*backboxint[0], 16*backboxint[0], 0);
break; //Yellow
case 5:
bcol2 = RGBflip(0, 16 * backboxint[0], 0);
break; //Green
case 6:
//crazy case
spcoldel--;
if (spcoldel <= 0)
{
spcoldel = 15;
spcol++;
if (spcol >= 12) spcol = 0;
}
switch(spcol)
{
case 0:
bcol2 = RGBflip(0, 16*backboxint[0], 16*backboxint[0]);
break; //Cyan
case 1:
bcol2 = RGBflip(0, (spcoldel+1)*backboxint[0], 16*backboxint[0]);
break; //Cyan
case 2:
bcol2 = RGBflip(0, 0, 16*backboxint[0]);
break; //Blue
case 3:
bcol2 = RGBflip((16-spcoldel)*backboxint[0], 0, 16*backboxint[0]);
break; //Blue
case 4:
bcol2 = RGBflip(16*backboxint[0], 0, 16*backboxint[0]);
break; //Purple
case 5:
bcol2 = RGBflip(16*backboxint[0], 0, (spcoldel+1)*backboxint[0]);
break; //Purple
case 6:
bcol2 = RGBflip(16*backboxint[0], 0, 0);
break; //Red
case 7:
bcol2 = RGBflip(16*backboxint[0], (16-spcoldel)*backboxint[0], 0);
break; //Red
case 8:
bcol2 = RGBflip(16*backboxint[0], 16*backboxint[0], 0);
break; //Yellow
case 9:
bcol2 = RGBflip((spcoldel+1)*backboxint[0], 16*backboxint[0], 0);
break; //Yellow
case 10:
bcol2 = RGBflip(0, 16 * backboxint[0], 0);
break; //Green
case 11:
bcol2 = RGBflip(0, 16 * backboxint[0], (16-spcoldel)*backboxint[0]);
break; //Green
}
break;
}
FillRect(backBuffer,bcol2);
for (int i = 0; i < 18; i++)
{
switch(rcol)
{
//Akward ordering to match tileset
case 0:
bcol = RGBflip(16, 128*backboxint[0], 128*backboxint[0]);
break; //Cyan
case 1:
bcol = RGBflip(128*backboxint[0], 16, 16);
break; //Red
case 2:
bcol = RGBflip(128*backboxint[0], 16, 128*backboxint[0]);
break; //Purple
case 3:
bcol = RGBflip(16, 16, 128*backboxint[0]);
break; //Blue
case 4:
bcol = RGBflip(128*backboxint[0], 128*backboxint[0], 16);
break; //Yellow
case 5:
bcol = RGBflip(16, 128 * backboxint[0], 16);
break; //Green
case 6:
//crazy case
switch(spcol)
{
case 0:
bcol = RGBflip(16, 128*backboxint[0], 128*backboxint[0]);
break; //Cyan
case 1:
bcol = RGBflip(16, ((spcoldel+1)*8)*backboxint[0], 128*backboxint[0]);
break; //Cyan
case 2:
bcol = RGBflip(16, 16, 128*backboxint[0]);
break; //Blue
case 3:
bcol = RGBflip((128-(spcoldel*8))*backboxint[0], 16, 128*backboxint[0]);
break; //Blue
case 4:
bcol = RGBflip(128*backboxint[0], 16, 128*backboxint[0]);
break; //Purple
case 5:
bcol = RGBflip(128*backboxint[0], 16, ((spcoldel+1)*8)*backboxint[0]);
break; //Purple
case 6:
bcol = RGBflip(128*backboxint[0], 16, 16);
break; //Red
case 7:
bcol = RGBflip(128*backboxint[0], (128-(spcoldel*8))*backboxint[0], 16);
break; //Red
case 8:
bcol = RGBflip(128*backboxint[0], 128*backboxint[0], 16);
break; //Yellow
case 9:
bcol = RGBflip(((spcoldel+1)*8)*backboxint[0], 128*backboxint[0], 16);
break; //Yellow
case 10:
bcol = RGBflip(16, 128 * backboxint[0], 16);
break; //Green
case 11:
bcol = RGBflip(16, 128 * backboxint[0], (128-(spcoldel*8))*backboxint[0]);
break; //Green
}
break;
}
FillRect(backBuffer, backboxes[i], bcol);
backboxrect.x = backboxes[i].x + 1;
backboxrect.y = backboxes[i].y + 1;
backboxrect.w = backboxes[i].w - 2;
backboxrect.h = backboxes[i].h - 2;
FillRect(backBuffer,backboxrect, bcol2);
backboxes[i].x += backboxvx[i];
backboxes[i].y += backboxvy[i];
if (backboxes[i].x < -40)
{
backboxes[i].x = 320;
backboxes[i].y = fRandom() * 240;
}
if (backboxes[i].x > 320)
{
backboxes[i].x = -32;
backboxes[i].y = fRandom() * 240;
}
if (backboxes[i].y < -40)
{
backboxes[i].y = 240;
backboxes[i].x = fRandom() * 320;
}
if (backboxes[i].y > 260)
{
backboxes[i].y = -32;
backboxes[i].x = fRandom() * 320;
}
}
break;
case 3: //Warp zone (horizontal)
backoffset+=3;
if (backoffset >= 16) backoffset -= 16;
if (backgrounddrawn)
{
ScrollSurface(towerbuffer, -3, 0 );
for (int j = 0; j < 15; j++)
{
temp = 680 + (rcol * 3);
drawtowertile(317 - backoffset, (j * 16), temp+40); //20*16 = 320
drawtowertile(317 - backoffset + 8, (j * 16), temp + 41);
drawtowertile(317 - backoffset, (j * 16) + 8, temp + 80);
drawtowertile(317 - backoffset + 8, (j * 16) + 8, temp + 81);
}
}
else
{
//draw the whole thing for the first time!
backoffset = 0;
FillRect(towerbuffer, 0x000000);
for (int j = 0; j < 15; j++)
{
for (int i = 0; i < 21; i++)
{
temp = 680 + (rcol * 3);
drawtowertile((i * 16) - backoffset - 3, (j * 16), temp+40);
drawtowertile((i * 16) - backoffset + 8 - 3, (j * 16), temp + 41);
drawtowertile((i * 16) - backoffset - 3, (j * 16) + 8, temp + 80);
drawtowertile((i * 16) - backoffset + 8 - 3, (j * 16) + 8, temp + 81);
}
}
backgrounddrawn = true;
}
BlitSurfaceStandard(towerbuffer, NULL, backBuffer, NULL);
break;
case 4: //Warp zone (vertical)
backoffset+=3;
if (backoffset >= 16) backoffset -= 16;
if (backgrounddrawn)
{
ScrollSurface(towerbuffer,0,-3);
for (int i = 0; i < 21; i++)
{
temp = 760 + (rcol * 3);
drawtowertile((i * 16), 237 - backoffset, temp + 40); //14*17=240 - 3
drawtowertile((i * 16) + 8, 237 - backoffset, temp + 41);
drawtowertile((i * 16), 237 - backoffset + 8, temp + 80);
drawtowertile((i * 16) + 8, 237 - backoffset + 8, temp + 81);
}
}
else
{
//draw the whole thing for the first time!
backoffset = 0;
FillRect(towerbuffer,0x000000 );
for (j = 0; j < 15; j++)
{
for (int i = 0; i < 21; i++)
{
temp = 760 + (rcol * 3);
drawtowertile((i * 16), (j * 16)- backoffset - 3, temp+40);
drawtowertile((i * 16)+ 8, (j * 16)- backoffset - 3, temp + 41);
drawtowertile((i * 16), (j * 16)- backoffset + 8 - 3, temp + 80);
drawtowertile((i * 16)+ 8, (j * 16)- backoffset + 8 - 3, temp + 81);
}
}
backgrounddrawn = true;
}
SDL_BlitSurface(towerbuffer,NULL, backBuffer,NULL);
break;
case 5:
//Warp zone, central
switch(rcol)
{
//Akward ordering to match tileset
case 0:
warpbcol = RGBflip(0x0A, 0x10, 0x0E);
warpfcol = RGBflip(0x10, 0x22, 0x21);
break; //Cyan
case 1:
warpbcol = RGBflip(0x11, 0x09, 0x0B);
warpfcol = RGBflip(0x22, 0x10, 0x11);
break; //Red
case 2:
warpbcol = RGBflip(0x0F, 0x0A, 0x10);
warpfcol = RGBflip(0x22,0x10,0x22);
break; //Purple
case 3:
warpbcol = RGBflip(0x0A, 0x0B, 0x10);
warpfcol = RGBflip(0x10, 0x10, 0x22);
break; //Blue
case 4:
warpbcol = RGBflip(0x10, 0x0D, 0x0A);
warpfcol = RGBflip(0x22, 0x1E, 0x10);
break; //Yellow
case 5:
warpbcol = RGBflip(0x0D, 0x10, 0x0A);
warpfcol = RGBflip(0x14, 0x22, 0x10);
break; //Green
case 6:
warpbcol = RGBflip(0x0A, 0x0A, 0x0A);
warpfcol = RGBflip(0x12, 0x12, 0x12);
break; //Gray
default:
warpbcol = RGBflip(0xFF, 0xFF, 0xFF);
warpfcol = RGBflip(0xFF, 0xFF, 0xFF);
}
backoffset += 1;
if (backoffset >= 16)
{
backoffset -= 16;
warpskip = (warpskip + 1) % 2;
}
for (int i = 10 ; i >= 0; i--)
{
temp = (i << 4) + backoffset;
setwarprect(160 - temp, 120 - temp, temp * 2, temp * 2);
if (i % 2 == warpskip)
{
FillRect(backBuffer, warprect, warpbcol);
}
else
{
FillRect(backBuffer,warprect, warpfcol);
}
}
break;
case 6:
//Final Starfield
FillRect(backBuffer,0x000000);
for (int i = 0; i < 50; i++)
{
if (starsspeed[i] <= 8)
{
FillRect(backBuffer, stars[i], getRGB(0x22, 0x22, 0x22));
}
else
{
FillRect(backBuffer, stars[i], getRGB(0x55, 0x55, 0x55));
}
stars[i].y -= starsspeed[i];
if (stars[i].y < -10)
{
stars[i].y += 260;
stars[i].x = fRandom() * 320;
starsspeed[i] = 5+(fRandom()*5);
}
}
break;
case 7:
//Static, unscrolling section of the tower
for (int j = 0; j < 30; j++)
{
for (int i = 0; i < 40; i++)
{
drawtile3(i * 8, j * 8, map.tower.backat(i, j, 200), 15);
}
}
break;
case 8:
//Static, unscrolling section of the tower
for (int j = 0; j < 30; j++)
{
for (int i = 0; i < 40; i++)
{
drawtile3(i * 8, j * 8, map.tower.backat(i, j, 200), 10);
}
}
break;
case 9:
//Static, unscrolling section of the tower
for (int j = 0; j < 30; j++)
{
for (int i = 0; i < 40; i++)
{
drawtile3(i * 8, j * 8, map.tower.backat(i, j, 600), 0);
}
}
break;
default:
FillRect(backBuffer, 0x000000 );
BlitSurfaceStandard(backgrounds[t], NULL, backBuffer, &bg_rect);
break;
}
}
void Graphics::drawmap()
{
if (!foregrounddrawn)
{
FillRect(foregroundBuffer, 0x00000000);
if(map.tileset==0)
{
for (j = 0; j < 29+map.extrarow; j++)
{
for (int i = 0; i < 40; i++)
{
if(map.contents[i + map.vmult[j]]>0) drawforetile(i * 8, j * 8, map.contents[i + map.vmult[j]]);
}
}
}
else if (map.tileset == 1)
{
for (int jt = 0; jt < 29+map.extrarow; jt++)
{
for (int it = 0; it < 40; it++)
{
if(map.contents[it + map.vmult[jt]]>0) drawforetile2(it * 8, jt * 8, map.contents[it + map.vmult[jt]]);
}
}
}
else if (map.tileset == 2)
{
for (j = 0; j < 29+map.extrarow; j++)
{
for (int i = 0; i < 40; i++)
{
if(map.contents[i + map.vmult[j]]>0) drawforetile3(i * 8, j * 8, map.contents[i + map.vmult[j]],map.rcol);
}
}
}
foregrounddrawn = true;
}
OverlaySurfaceKeyed(foregroundBuffer, backBuffer, 0x00000000);
//SDL_BlitSurface(foregroundBuffer, NULL, backBuffer, NULL);
}
void Graphics::drawfinalmap()
{
//Update colour cycling for final level
if (map.final_colormode) {
map.final_aniframedelay--;
if(map.final_aniframedelay==0)
{
foregrounddrawn=false;
}
if (map.final_aniframedelay <= 0) {
map.final_aniframedelay = 2;
map.final_aniframe++;
if (map.final_aniframe >= 4)
map.final_aniframe = 0;
}
}
if (!foregrounddrawn) {
FillRect(foregroundBuffer, 0x00000000);
if(map.tileset==0){
for (int j = 0; j < 29+map.extrarow; j++) {
for (int i = 0; i < 40; i++) {
if((map.contents[i + map.vmult[j]])>0)
drawforetile(i * 8, j * 8, map.finalat(i,j));
}
}
}else if (map.tileset == 1) {
for (int j = 0; j < 29+map.extrarow; j++) {
for (int i = 0; i < 40; i++) {
if((map.contents[i + map.vmult[j]])>0)
drawforetile2(i * 8, j * 8, map.finalat(i,j));
}
}
}
foregrounddrawn=true;
}
OverlaySurfaceKeyed(foregroundBuffer, backBuffer, 0x00000000);
}
void Graphics::drawtowermap()
{
int temp;
for (int j = 0; j < 30; j++)
{
for (int i = 0; i < 40; i++)
{
temp = map.tower.at(i, j, map.ypos);
if (temp > 0) drawtile3(i * 8, (j * 8) - ((int)map.ypos % 8), temp, map.colstate);
}
}
}
void Graphics::drawtowermap_nobackground()
{
int temp;
for (j = 0; j < 30; j++)
{
for (int i = 0; i < 40; i++)
{
temp = map.tower.at(i, j, map.ypos);
if (temp > 0 && temp<28) drawtile3(i * 8, (j * 8) - ((int)map.ypos % 8), temp, map.colstate);
}
}
}
void Graphics::drawtowerspikes()
{
for (int i = 0; i < 40; i++)
{
drawtile3(i * 8, -8+map.spikeleveltop, 9, map.colstate);
drawtile3(i * 8, 230-map.spikelevelbottom, 8, map.colstate);
}
}
void Graphics::drawtowerbackground()
{
int temp;
if (map.bypos < 0) map.bypos += 120 * 8;
if (map.tdrawback)
{
int off = map.scrolldir == 0 ? 0 : map.bscroll;
//Draw the whole thing; needed for every colour cycle!
for (int j = 0; j < 31; j++)
{
for (int i = 0; i < 40; i++)
{
temp = map.tower.backat(i, j, map.bypos);
drawtowertile3(i * 8, (j * 8) - (map.bypos % 8) - off, temp, map.colstate);
}
}
SDL_BlitSurface(towerbuffer,NULL, backBuffer,NULL);
map.tdrawback = false;
}
else
{
//just update the bottom
ScrollSurface(towerbuffer, 0, -map.bscroll);
if (map.scrolldir == 0)
{
for (int i = 0; i < 40; i++)
{
temp = map.tower.backat(i, 0, map.bypos);
drawtowertile3(i * 8, -(map.bypos % 8), temp, map.colstate);
}
}
else
{
for (int i = 0; i < 40; i++)
{
temp = map.tower.backat(i, 29, map.bypos);
drawtowertile3(i * 8, 29*8 - (map.bypos % 8) - map.bscroll, temp, map.colstate);
temp = map.tower.backat(i, 30, map.bypos);
drawtowertile3(i * 8, 30*8 - (map.bypos % 8) - map.bscroll, temp, map.colstate);
temp = map.tower.backat(i, 31, map.bypos);
drawtowertile3(i * 8, 31*8 - (map.bypos % 8) - map.bscroll, temp, map.colstate);
}
}
SDL_BlitSurface(towerbuffer,NULL, backBuffer,NULL);
}
}
void Graphics::setcol( int t )
{
int temp;
//Setup predefinied colours as per our zany palette
switch(t)
{
//Player Normal
case 0:
ct.colour = getRGB(160- help.glow/2 - (fRandom()*20), 200- help.glow/2, 220 - help.glow);
break;
//Player Hurt
case 1:
ct.colour = getRGB(196 - (fRandom() * 64), 10, 10);
break;
//Enemies and stuff
case 2:
ct.colour = getRGB(225-(help.glow/2), 75, 30);
break;
case 3: //Trinket
if (!trinketcolset)
{
trinketr = 200 - (fRandom() * 64);
trinketg = 200 - (fRandom() * 128);
trinketb = 164 + (fRandom() * 60);
trinketcolset = true;
}
ct.colour = getRGB(trinketr, trinketg, trinketb);
break;
case 4: //Inactive savepoint
temp = (help.glow/2) + (fRandom() * 8);
ct.colour = getRGB(80 + temp, 80 + temp, 80 + temp);
break;
case 5: //Active savepoint
ct.colour = getRGB(164+(fRandom()*64),164+(fRandom()*64), 255-(fRandom()*64));
break;
case 6: //Enemy : Red
ct.colour = getRGB(250 - help.glow/2, 60- help.glow/2, 60 - help.glow/2);
break;
case 7: //Enemy : Green
ct.colour = getRGB(100 - help.glow/2 - (fRandom()*30), 250 - help.glow/2, 100 - help.glow/2 - (fRandom()*30));
break;
case 8: //Enemy : Purple
ct.colour = getRGB(250 - help.glow/2, 20, 128 - help.glow/2 + (fRandom()*30));
break;
case 9: //Enemy : Yellow
ct.colour = getRGB(250 - help.glow/2, 250 - help.glow/2, 20);
break;
case 10: //Warp point (white)
ct.colour = getRGB(255 - (fRandom() * 64), 255 - (fRandom() * 64), 255 - (fRandom() * 64));
break;
case 11: //Enemy : Cyan
ct.colour = getRGB(20, 250 - help.glow/2, 250 - help.glow/2);
break;
case 12: //Enemy : Blue
ct.colour = getRGB(90- help.glow/2, 90 - help.glow/2, 250 - help.glow/2);
break;
//Crew Members
//green
case 13:
ct.colour = getRGB(120- help.glow/4 - (fRandom()*20), 220 - help.glow/4, 120- help.glow/4);
break;
//Yellow
case 14:
ct.colour = getRGB(220- help.glow/4 - (fRandom()*20), 210 - help.glow/4, 120- help.glow/4);
break;
//pink
case 15:
ct.colour = getRGB(255 - help.glow/8, 70 - help.glow/4, 70 - help.glow / 4);
break;
//Blue
case 16:
ct.colour = getRGB(75, 75, 255- help.glow/4 - (fRandom()*20));
break;
case 17: //Enemy : Orange
ct.colour = getRGB(250 - help.glow/2, 130 - help.glow/2, 20);
break;
case 18: //Enemy : Gray
ct.colour = getRGB(130- help.glow/2, 130 - help.glow/2, 130 - help.glow/2);
break;
case 19: //Enemy : Dark gray
ct.colour = getRGB(60- help.glow/8, 60 - help.glow/8, 60 - help.glow/8);
break;
//Purple
case 20:
ct.colour = getRGB(220 - help.glow / 4 - (fRandom() * 20), 120 - help.glow / 4, 210 - help.glow / 4);
break;
case 21: //Enemy : Light Gray
ct.colour = getRGB(180- help.glow/2, 180 - help.glow/2, 180 - help.glow/2);
break;
case 22: //Enemy : Indicator Gray
ct.colour = getRGB(230- help.glow/2, 230- help.glow/2, 230- help.glow/2);
break;
case 23: //Enemy : Indicator Gray
ct.colour = getRGB(255- help.glow/2 - (fRandom() * 40) , 255- help.glow/2 - (fRandom() * 40), 255- help.glow/2 - (fRandom() * 40));
break;
//Trophies
//cyan
case 30:
ct.colour = RGBf(160, 200, 220);
break;
//Purple
case 31:
ct.colour = RGBf(220, 120, 210);
break;
//Yellow
case 32:
ct.colour = RGBf(220, 210, 120);
break;
//red
case 33:
ct.colour = RGBf(255, 70, 70);
break;
//green
case 34:
ct.colour = RGBf(120, 220, 120);
break;
//Blue
case 35:
ct.colour = RGBf(75, 75, 255);
break;
//Gold
case 36:
ct.colour = getRGB(180, 120, 20);
break;
case 37: //Trinket
if (!trinketcolset)
{
trinketr = 200 - (fRandom() * 64);
trinketg = 200 - (fRandom() * 128);
trinketb = 164 + (fRandom() * 60);
trinketcolset = true;
}
ct.colour = RGBf(trinketr, trinketg, trinketb);
break;
//Silver
case 38:
ct.colour = RGBf(196, 196, 196);
break;
//Bronze
case 39:
ct.colour = RGBf(128, 64, 10);
break;
//Awesome
case 40: //Teleporter in action!
temp = fRandom() * 150;
if(temp<33)
{
ct.colour = RGBf(255 - (fRandom() * 64), 64 + (fRandom() * 64), 64 + (fRandom() * 64));
}
else if (temp < 66)
{
ct.colour = RGBf(64 + (fRandom() * 64), 255 - (fRandom() * 64), 64 + (fRandom() * 64));
}
else if (temp < 100)
{
ct.colour = RGBf(64 + (fRandom() * 64), 64 + (fRandom() * 64), 255 - (fRandom() * 64));
}
else
{
ct.colour = RGBf(164+(fRandom()*64),164+(fRandom()*64), 255-(fRandom()*64));
}
break;
case 100: //Inactive Teleporter
temp = (help.glow/2) + (fRandom() * 8);
ct.colour = getRGB(42 + temp, 42 + temp, 42 + temp);
break;
case 101: //Active Teleporter
ct.colour = getRGB(164+(fRandom()*64),164+(fRandom()*64), 255-(fRandom()*64));
break;
case 102: //Teleporter in action!
temp = fRandom() * 150;
if(temp<33)
{
ct.colour = getRGB(255 - (fRandom() * 64), 64 + (fRandom() * 64), 64 + (fRandom() * 64));
}
else if (temp < 66)
{
ct.colour = getRGB(64 + (fRandom() * 64), 255 - (fRandom() * 64), 64 + (fRandom() * 64));
}
else if (temp < 100)
{
ct.colour = getRGB(64 + (fRandom() * 64), 64 + (fRandom() * 64), 255 - (fRandom() * 64));
}
else
{
ct.colour = getRGB(164+(fRandom()*64),164+(fRandom()*64), 255-(fRandom()*64));
}
break;
default:
ct.colour = 0xFFFFFF;
break;
}
}
void Graphics::menuoffrender()
{
SDL_Rect offsetRect1;
setRect (offsetRect1, 0, 0, backBuffer->w ,backBuffer->h);
//put the back buffer in the menubuffer
BlitSurfaceStandard(backBuffer, NULL, menubuffer, NULL);
if(flipmode)
{
// flipmatrix.translate(0, menuoffset);
// screenbuffer.draw(backbuffer, flipmatrix);
// flipmatrix.translate(0, -menuoffset);
SDL_Surface* tempbufferFlipped = FlipSurfaceVerticle(tempBuffer);
//put the stored backbuffer in the backbuffer.
SDL_FillRect(backBuffer, NULL, 0x00000000);
BlitSurfaceStandard(tempbufferFlipped, NULL, backBuffer, NULL);
SDL_FreeSurface(tempbufferFlipped);
SDL_Rect offsetRect;
setRect (offsetRect, 0, menuoffset, backBuffer->w ,backBuffer->h);
SDL_Surface* temp = FlipSurfaceVerticle(menubuffer);
BlitSurfaceStandard(temp,NULL,backBuffer,&offsetRect);
SDL_FreeSurface(temp);
}
else
{
//put the stored backbuffer in the backbuffer.
BlitSurfaceStandard(tempBuffer, NULL, backBuffer, NULL);
SDL_Rect offsetRect;
setRect (offsetRect, 0, menuoffset, backBuffer->w ,backBuffer->h);
BlitSurfaceStandard(menubuffer,NULL,backBuffer,&offsetRect);
}
SDL_Rect rect;
setRect(rect, 0, 0, backBuffer->w, backBuffer->h);
screenbuffer->UpdateScreen(backBuffer,&rect);
FillRect(backBuffer, 0x000000);
}
void Graphics::drawhuetile( int x, int y, int t, int c )
{
point tpoint;
tpoint.x = x;
tpoint.y = y;
switch(c)
{
case 0:
setcolreal(getRGB(250-int(fRandom()*32), 250-int(fRandom()*32), 10));
break;
case 1:
setcolreal(getRGB(250-int(fRandom()*32), 250-int(fRandom()*32), 10));
break;
default:
setcolreal(getRGB(250-int(fRandom()*32), 250-int(fRandom()*32), 10));
break;
}
SDL_Rect rect;
setRect(rect,tpoint.x,tpoint.y,tiles_rect.w, tiles_rect.h);
BlitSurfaceColoured(tiles[t],NULL,backBuffer, &rect, ct);
}
void Graphics::setwarprect( int a, int b, int c, int d )
{
warprect.x = a;
warprect.y = b;
warprect.w = c;
warprect.h = d;
}
void Graphics::textboxcleanup()
{
}
void Graphics::textboxcenter()
{
textbox[m].centerx();
textbox[m].centery();
}
void Graphics::textboxcenterx()
{
textbox[m].centerx();
}
int Graphics::textboxwidth()
{
return textbox[m].w;
}
void Graphics::textboxmove(int xo, int yo)
{
textbox[m].xp += xo;
textbox[m].yp += yo;
}
void Graphics::textboxmoveto(int xo)
{
textbox[m].xp = xo;
}
void Graphics::textboxcentery()
{
textbox[m].centery();
}
int Graphics::crewcolour(const int t)
{
//given crewmate t, return colour in setcol
if (t == 0) return 0;
if (t == 1) return 20;
if (t == 2) return 14;
if (t == 3) return 15;
if (t == 4) return 13;
if (t == 5) return 16;
return 0;
}
void Graphics::flashlight()
{
FillRect(backBuffer, 0xBBBBBBBB);
}
void Graphics::screenshake()
{
point tpoint;
if(flipmode)
{
// tpoint.x = int((Math.random() * 7) - 4); tpoint.y = int((Math.random() * 7) - 4);
// flipmatrix.translate(tpoint.x, tpoint.y);
// screenbuffer.draw(backbuffer, flipmatrix);
// flipmatrix.translate(-tpoint.x, -tpoint.y);
tpoint.x = (fRandom() * 7) - 4;
tpoint.y = (fRandom() * 7) - 4;
SDL_Rect shakeRect;
setRect(shakeRect,tpoint.x, tpoint.y, backBuffer->w, backBuffer->h);
SDL_Surface* flipBackBuffer = FlipSurfaceVerticle(backBuffer);
screenbuffer->UpdateScreen( flipBackBuffer, &shakeRect);
SDL_FreeSurface(flipBackBuffer);
}
else
{
//FillRect(screenbuffer, 0x000);
//SDL_Rect rect;
//setRect(rect, blackBars/2, 0, screenbuffer->w, screenbuffer->h);
//SDL_BlitSurface(backBuffer, NULL, screenbuffer, &rect);
tpoint.x = static_cast<Sint32>((fRandom() * 7) - 4);
tpoint.y = static_cast<Sint32>((fRandom() * 7) - 4);
SDL_Rect shakeRect;
setRect(shakeRect,tpoint.x, tpoint.y, backBuffer->w, backBuffer->h);
screenbuffer->UpdateScreen( backBuffer, &shakeRect);
}
FillRect(backBuffer, 0x000000 );
}
void Graphics::render()
{
if(screenbuffer == NULL)
{
return;
}
if(flipmode)
{
SDL_Rect rect;
setRect(rect, 0, 0, backBuffer->w, backBuffer->h);
//setRect(rect, 0, 0, backBuffer->w, backBuffer->h);
//SDL_BlitSurface(backBuffer, NULL, screenbuffer, &rect);
SDL_Surface* tempsurface = FlipSurfaceVerticle(backBuffer);
if(tempsurface != NULL)
{
screenbuffer->UpdateScreen( tempsurface, &rect);
SDL_FreeSurface(tempsurface);
}
}
else
{
SDL_Rect rect;
setRect(rect, 0, 0, backBuffer->w, backBuffer->h);
//setRect(rect, 0, 0, backBuffer->w, backBuffer->h);
//SDL_BlitSurface(backBuffer, NULL, screenbuffer, &rect);
screenbuffer->UpdateScreen( backBuffer, &rect);
}
}
void Graphics::renderwithscreeneffects()
{
if (game.flashlight > 0 && !game.noflashingmode)
{
graphics.flashlight();
}
if (game.screenshake > 0 && !game.noflashingmode)
{
graphics.screenshake();
}
else
{
graphics.render();
}
}
void Graphics::bigrprint(int x, int y, std::string& t, int r, int g, int b, bool cen, float sc)
{
if (r < 0) r = 0;
if (g < 0) g = 0;
if (b < 0) b = 0;
if (r > 255) r = 255;
if (g > 255) g = 255;
if (b > 255) b = 255;
ct.colour = getRGB(r, g, b);
x = x / (sc);
x -= (len(t));
if (r < -1) r = -1;
if (g < 0) g = 0;
if (b < 0) b = 0;
if (r > 255) r = 255;
if (g > 255) g = 255;
if (b > 255) b = 255;
ct.colour = getRGB(r, g, b);
if (cen)
{
x = std::max(160 - (int((len(t)/ 2.0)*sc)), 0 );
}
else
{
x *= (sc);
}
int bfontpos = 0;
int cur;
std::string::iterator iter = t.begin();
while (iter != t.end()) {
cur = utf8::unchecked::next(iter);
if (flipmode)
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(flipbfont[font_idx(cur)], bfont[font_idx(cur)]->w *sc,bfont[font_idx(cur)]->h *sc);
SDL_Rect printrect = { Sint16(x + bfontpos), Sint16(y) , Sint16(bfont_rect.w*sc), Sint16(bfont_rect.h * sc)};
BlitSurfaceColoured(tempPrint, NULL, backBuffer, &printrect ,ct);
SDL_FreeSurface(tempPrint);
}
else
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(bfont[font_idx(cur)], bfont[font_idx(cur)]->w *sc,bfont[font_idx(cur)]->h *sc);
SDL_Rect printrect = { Sint16((x) + bfontpos), Sint16(y) , Sint16(bfont_rect.w*sc), Sint16(bfont_rect.h * sc)};
BlitSurfaceColoured(tempPrint, NULL, backBuffer, &printrect, ct);
SDL_FreeSurface(tempPrint);
}
bfontpos+=bfontlen(cur)* sc;
}
}
void Graphics::drawtele(int x, int y, int t, int c)
{
setcolreal(getRGB(16,16,16));
SDL_Rect telerect;
setRect(telerect, x , y, tele_rect.w, tele_rect.h );
BlitSurfaceColoured(tele[0], NULL, backBuffer, &telerect, ct);
setcol(c);
if (t > 9) t = 8;
if (t < 0) t = 0;
setRect(telerect, x , y, tele_rect.w, tele_rect.h );
BlitSurfaceColoured(tele[t], NULL, backBuffer, &telerect, ct);
}
Uint32 Graphics::getRGBA(Uint8 r, Uint8 g, Uint8 b, Uint8 a)
{
return SDL_MapRGBA(backBuffer->format, b, g, r, a);
}
Uint32 Graphics::getRGB(Uint8 r, Uint8 g, Uint8 b)
{
return SDL_MapRGB(backBuffer->format, b, g, r);
}
Uint32 Graphics::getBGR(Uint8 r, Uint8 g, Uint8 b)
{
return SDL_MapRGB(backBuffer->format, r, g, b);
}
Uint32 Graphics::getRGB(Uint32 _col)
{
return ( _col);
}
Uint32 Graphics::RGBflip(Uint8 r, Uint8 g, Uint8 b)
{
return SDL_MapRGB(backBuffer->format, r, g, b);
}
Uint32 Graphics::RGBf(int r, int g, int b)
{
r = (r+128) / 3;
g = (g+128) / 3;
b = (b+128) / 3;
return SDL_MapRGB(backBuffer->format, r, g, b);
}
void Graphics::setcolreal(Uint32 t)
{
ct.colour = t;
}
void Graphics::drawforetile(int x, int y, int t)
{
SDL_Rect rect;
setRect(rect, x,y,tiles_rect.w, tiles_rect.h);
BlitSurfaceStandard(tiles[t],NULL, foregroundBuffer, &rect );
}
void Graphics::drawforetile2(int x, int y, int t)
{
SDL_Rect rect;
setRect(rect, x,y,tiles_rect.w, tiles_rect.h);
BlitSurfaceStandard(tiles2[t],NULL, foregroundBuffer, &rect );
}
void Graphics::drawforetile3(int x, int y, int t, int off)
{
SDL_Rect rect;
setRect(rect, x,y,tiles_rect.w, tiles_rect.h);
BlitSurfaceStandard(tiles3[t+(off*30)],NULL, foregroundBuffer, &rect );
}
void Graphics::drawrect(int x, int y, int w, int h, int r, int g, int b)
{
SDL_Rect madrect;
//Draw the retangle indicated by that object
madrect.x = x;
madrect.y = y;
madrect.w = w;
madrect.h = 1;
FillRect(backBuffer, madrect, getRGB(b,g,r));
madrect.w = 1;
madrect.h = h;
FillRect(backBuffer, madrect, getRGB(b,g,r));
madrect.x = x + w - 1;
madrect.w = 1;
madrect.h = h;
FillRect(backBuffer, madrect, getRGB(b,g,r));
madrect.x = x;
madrect.y = y + h - 1;
madrect.w = w;
madrect.h = 1;
FillRect(backBuffer, madrect, getRGB(b,g,r));
}
bool Graphics::onscreen(int t)
{
return (t >= -40 && t <= 280);
}
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