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VVVVVV/desktop_version/src/Graphics.cpp

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2020-01-01 21:29:24 +01:00
#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>
2020-01-01 21:29:24 +01:00
Allow using help/graphics/music/game/key/map/obj everywhere This commit makes `help`, `graphics`, `music`, `game`, `key`, `map`, and `obj` essentially static global objects that can be used everywhere. This is useful in case we ever need to add a new function in the future, so we don't have to bother with passing a new argument in which means we have to pass a new argument in to the function that calls that function which means having to pass a new argument into the function that calls THAT function, etc. which is a real headache when working on fan mods of the source code. Note that this changes NONE of the existing function signatures, it merely just makes those variables accessible everywhere in the same way `script` and `ed` are. Also note that some classes had to be initialized after the filesystem was initialized, but C++ would keep initializing them before the filesystem got initialized, because I *had* to put them at the top of `main.cpp`, or else they wouldn't be global variables. The only way to work around this was to use entityclass's initialization style (which I'm pretty sure entityclass of all things doesn't need to be initialized this way), where you actually initialize the class in an `init()` function, and so then you do `graphics.init()` after the filesystem initialization, AFTER doing `Graphics graphics` up at the top. I've had to do this for `graphics` (but only because its child GraphicsResources `grphx` needs to be initialized this way), `music`, and `game`. I don't think this will affect anything. Other than that, `help`, `key`, and `map` are still using the C++-intended method of having ClassName::ClassName() functions.
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void Graphics::init()
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{
Allow using help/graphics/music/game/key/map/obj everywhere This commit makes `help`, `graphics`, `music`, `game`, `key`, `map`, and `obj` essentially static global objects that can be used everywhere. This is useful in case we ever need to add a new function in the future, so we don't have to bother with passing a new argument in which means we have to pass a new argument in to the function that calls that function which means having to pass a new argument into the function that calls THAT function, etc. which is a real headache when working on fan mods of the source code. Note that this changes NONE of the existing function signatures, it merely just makes those variables accessible everywhere in the same way `script` and `ed` are. Also note that some classes had to be initialized after the filesystem was initialized, but C++ would keep initializing them before the filesystem got initialized, because I *had* to put them at the top of `main.cpp`, or else they wouldn't be global variables. The only way to work around this was to use entityclass's initialization style (which I'm pretty sure entityclass of all things doesn't need to be initialized this way), where you actually initialize the class in an `init()` function, and so then you do `graphics.init()` after the filesystem initialization, AFTER doing `Graphics graphics` up at the top. I've had to do this for `graphics` (but only because its child GraphicsResources `grphx` needs to be initialized this way), `music`, and `game`. I don't think this will affect anything. Other than that, `help`, `key`, and `map` are still using the C++-intended method of having ClassName::ClassName() functions.
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grphx.init();
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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;
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trinketcolset = false;
showcutscenebars = false;
cutscenebarspos = 0;
oldcutscenebarspos = 0;
notextoutline = false;
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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;
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crewframe = 0;
crewframedelay = 4;
menuoffset = 0;
oldmenuoffset = 0;
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resumegamemode = false;
//Fading stuff
fadebars.resize(15);
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fadeamount = 0;
oldfadeamount = 0;
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fademode = 0;
// initialize everything else to zero
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backBuffer = NULL;
bcol = 0;
bcol2 = 0;
ct = colourTransform();
foot_rect = SDL_Rect();
foregrounddrawn = false;
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foregroundBuffer = NULL;
backgrounddrawn = false;
images_rect = SDL_Rect();
m = 0;
linedelay = 0;
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menubuffer = NULL;
screenbuffer = NULL;
tempBuffer = NULL;
tl = point();
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towerbuffer = NULL;
towerbuffer_lerp = NULL;
trinketr = 0;
trinketg = 0;
trinketb = 0;
warprect = SDL_Rect();
translucentroomname = false;
showmousecursor = true;
alpha = 1.0f;
screenshake_x = 0;
screenshake_y = 0;
col_crewred = 0x00000000;
col_crewyellow = 0x00000000;
col_crewgreen = 0x00000000;
col_crewcyan = 0x00000000;
col_crewblue = 0x00000000;
col_crewpurple = 0x00000000;
col_crewinactive = 0x00000000;
col_clock = 0x00000000;
col_trinket = 0x00000000;
col_tr = 0;
col_tg = 0;
col_tb = 0;
kludgeswnlinewidth = false;
vsync = false;
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}
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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;
}
}
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Graphics::~Graphics()
{
}
void Graphics::drawspritesetcol(int x, int y, int t, int c)
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{
if (!INBOUNDS(t, sprites))
{
return;
}
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SDL_Rect rect;
setRect(rect,x,y,sprites_rect.w,sprites_rect.h);
setcol(c);
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BlitSurfaceColoured(sprites[t],NULL,backBuffer, &rect, ct);
}
void Graphics::updatetitlecolours()
{
setcol(15);
col_crewred = ct.colour;
setcol(14);
col_crewyellow = ct.colour;
setcol(13);
col_crewgreen = ct.colour;
setcol(0);
col_crewcyan = ct.colour;
setcol(16);
col_crewblue = ct.colour;
setcol(20);
col_crewpurple = ct.colour;
setcol(19);
col_crewinactive = ct.colour;
setcol(18);
col_clock = ct.colour;
setcol(18);
col_trinket = ct.colour;
}
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void Graphics::Makebfont()
{
for (int j = 0; j < (grphx.im_bfont->h / 8); j++)
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{
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);
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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;
}
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FILESYSTEM_freeMemory(&charmap);
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}
}
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int Graphics::bfontlen(uint32_t ch) {
if (ch < 32) {
return 6;
} else {
return 8;
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}
}
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::map_tab(int opt, const std::string& text, bool selected /*= false*/)
{
int x = opt*80 + 40 - len(text)/2;
if (selected)
{
Print(x-8, 220, "[" + text + "]", 196, 196, 255 - help.glow);
}
else
{
Print(x, 220, text, 64, 64, 64);
}
}
void Graphics::map_option(int opt, int num_opts, const std::string& text, bool selected /*= false*/)
{
int x = 80 + opt*32;
int y = 136; // start from middle of menu
int yoff = -(num_opts * 12) / 2; // could be simplified to -num_opts * 6, this conveys my intent better though
yoff += opt * 12;
if (flipmode)
{
y -= yoff; // going down, which in Flip Mode means going up
y -= 40;
}
else
{
y += yoff; // going up
}
if (selected)
{
std::string text_upper(text);
std::transform(text_upper.begin(), text_upper.end(), text_upper.begin(), ::toupper);
Print(x - 16, y, "[ " + text_upper + " ]", 196, 196, 255 - help.glow);
}
else
{
Print(x, y, text, 96, 96, 96);
}
}
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*/ )
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{
std::vector<SDL_Surface*>& font = flipmode ? flipbfont : bfont;
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r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
a = clamp(a,0,255);
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ct.colour = getRGBA(r, g, b, a);
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if (cen)
_x = ((160 ) - ((len(_s)) / 2));
int bfontpos = 0;
int curr;
int idx;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
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point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
idx = font_idx(curr);
if (INBOUNDS(idx, font))
{
BlitSurfaceColoured( font[idx], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
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}
}
void Graphics::bigprint( int _x, int _y, std::string _s, int r, int g, int b, bool cen, int sc )
{
std::vector<SDL_Surface*>& font = flipmode ? flipbfont : bfont;
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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 );
}
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int bfontpos = 0;
int curr;
int idx;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
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/*
point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
*/
idx = font_idx(curr);
if (INBOUNDS(idx, font))
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(font[idx], font[idx]->w *sc,font[idx]->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;
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}
}
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);
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}
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*/ )
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{
std::vector<SDL_Surface*>& font = flipmode ? flipbfont : bfont;
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r = clamp(r,0,255);
g = clamp(g,0,255);
b = clamp(b,0,255);
a = clamp(a,0,255);
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ct.colour = getRGB(r, g, b);
if (cen)
_x = ((160) - (len(_s) / 2))+_x;
int bfontpos = 0;
int idx;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
int curr = utf8::unchecked::next(iter);
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point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
idx = font_idx(curr);
if (INBOUNDS(idx, font))
{
BlitSurfaceColoured( font[idx], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
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}
}
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*/ )
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{
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);
}
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PrintAlpha(x, y, t, r, g, b, a, cen);
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}
void Graphics::RPrint( int _x, int _y, std::string _s, int r, int g, int b, bool cen /*= false*/ )
{
std::vector<SDL_Surface*>& font = flipmode ? flipbfont : bfont;
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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;
int idx;
std::string::iterator iter = _s.begin();
while (iter != _s.end()) {
curr = utf8::unchecked::next(iter);
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point tpoint;
tpoint.x = _x + bfontpos;
tpoint.y = _y;
SDL_Rect fontRect = bfont_rect;
fontRect.x = tpoint.x ;
fontRect.y = tpoint.y ;
idx = font_idx(curr);
if (INBOUNDS(idx, font))
{
BlitSurfaceColoured( font[idx], NULL, backBuffer, &fontRect , ct);
}
bfontpos+=bfontlen(curr) ;
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}
}
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::drawsprite(int x, int y, int t, Uint32 c)
{
SDL_Rect rect = { Sint16(x), Sint16(y), sprites_rect.w, sprites_rect.h };
setcolreal(c);
BlitSurfaceColoured(sprites[t], NULL, backBuffer, &rect, ct);
}
void Graphics::drawtile( int x, int y, int t )
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{
if (!INBOUNDS(t, tiles))
{
return;
}
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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 )
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{
if (!INBOUNDS(t, tiles2))
{
return;
}
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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 )
{
if (!INBOUNDS(t, tiles3))
{
return;
}
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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)
{
if (!INBOUNDS(t, entcolours))
{
return;
}
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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 )
{
if (!INBOUNDS(t, tiles2))
{
return;
}
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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 )
{
t += off*30;
if (!INBOUNDS(t, tiles3))
{
return;
}
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SDL_Rect rect = { Sint16(x), Sint16(y), tiles_rect.w, tiles_rect.h };
BlitSurfaceStandard(tiles3[t], NULL, towerbuffer, &rect);
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}
void Graphics::drawgui()
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{
//Draw all the textboxes to the screen
for (size_t i = 0; i<textbox.size(); i++)
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{
//This routine also updates textbox colors
float tl_lerp = lerp(textbox[i].prev_tl, textbox[i].tl);
textbox[i].setcol(textbox[i].tr * tl_lerp, textbox[i].tg * tl_lerp, textbox[i].tb * tl_lerp);
if (textbox[i].r == 0 && textbox[i].g == 0 && textbox[i].b == 0)
{
if(flipmode)
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{
for (size_t j = 0; j < textbox[i].line.size(); j++)
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{
Print(textbox[i].xp + 8, textbox[i].yp + (textbox[i].line.size()*8) - (j * 8), textbox[i].line[j], 196, 196, 255 - help.glow);
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}
}
else
{
for (size_t j = 0; j < textbox[i].line.size(); j++)
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{
Print(textbox[i].xp + 8, textbox[i].yp + 8 + (j * 8), textbox[i].line[j], 196, 196, 255 - help.glow);
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}
}
}
else
{
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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);
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}
if(flipmode)
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{
for (size_t j = 0; j < textbox[i].line.size(); j++)
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{
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);
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}
}
else
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{
for (size_t j = 0; j < textbox[i].line.size(); j++)
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{
Print(textbox[i].xp + 8, textbox[i].yp +8 + (j * 8), textbox[i].line[j], textbox[i].r, textbox[i].g, textbox[i].b);
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}
}
}
if ((textbox[i].yp == 12 || textbox[i].yp == 180) && textbox[i].r == 165 && textbox[i].allowspecial)
{
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if (flipmode)
{
drawimage(5, 0, 180, true);
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}
else
{
drawimage(0, 0, 12, true);
}
}
else if ((textbox[i].yp == 12 || textbox[i].yp == 180) && textbox[i].g == 165 && textbox[i].allowspecial)
{
if (flipmode)
{
drawimage(6, 0, 180, true);
}
else
{
drawimage(4, 0, 12, true);
}
}
if (flipmode)
{
if (textbox[i].r == 175 && textbox[i].g == 175 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//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 && textbox[i].allowspecial)
{
//blue guy
drawsprite(80 - 6, 64 + 32 + 4, 0, 75, 75, 255- help.glow/4 - int(fRandom()*20));
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}
}
}
}
void Graphics::updatetextboxes()
{
for (size_t i = 0; i < textbox.size(); i++)
{
textbox[i].update();
if (textbox[i].tm == 2 && textbox[i].tl <= 0.5)
{
textbox.erase(textbox.begin() + i);
i--;
continue;
}
}
}
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void Graphics::drawimagecol( int t, int xp, int yp, int r = 0, int g = 0, int b = 0, bool cent/*= false*/ )
{
if (!INBOUNDS(t, images))
{
return;
}
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SDL_Rect trect;
if(r+g+b != 0)
{
RGBf(r,g,b);
}
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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*/ )
{
if (!INBOUNDS(t, images))
{
return;
}
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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)
{
if (!INBOUNDS(t, images))
{
return;
}
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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()
{
int usethispos = lerp(oldcutscenebarspos, cutscenebarspos);
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if (showcutscenebars)
{
FillRect(backBuffer, 0, 0, usethispos, 16, 0x000000);
FillRect(backBuffer, 360-usethispos, 224, usethispos, 16, 0x000000);
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}
else if (cutscenebarspos > 0) //disappearing
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{
//draw
FillRect(backBuffer, 0, 0, usethispos, 16, 0x000000);
FillRect(backBuffer, 360-usethispos, 224, usethispos, 16, 0x000000);
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}
}
void Graphics::cutscenebarstimer()
{
oldcutscenebarspos = cutscenebarspos;
if (showcutscenebars)
{
cutscenebarspos += 25;
cutscenebarspos = std::min(cutscenebarspos, 361);
}
else if (cutscenebarspos > 0)
{
//disappearing
cutscenebarspos -= 25;
cutscenebarspos = std::max(cutscenebarspos, 0);
}
}
void Graphics::drawcrewman( int x, int y, int t, bool act, bool noshift /*=false*/ )
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{
if (!act)
{
if (noshift)
{
if (flipmode)
{
drawsprite(x, y, 14, col_crewinactive);
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}
else
{
drawsprite(x, y, 12, col_crewinactive);
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}
}
else
{
if (flipmode)
{
drawsprite(x - 8, y, 14, col_crewinactive);
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}
else
{
drawsprite(x - 8, y, 12, col_crewinactive);
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}
}
}
else
{
if (flipmode) crewframe += 6;
switch(t)
{
case 0:
drawsprite(x, y, crewframe, col_crewcyan);
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break;
case 1:
drawsprite(x, y, crewframe, col_crewpurple);
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break;
case 2:
drawsprite(x, y, crewframe, col_crewyellow);
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break;
case 3:
drawsprite(x, y, crewframe, col_crewred);
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break;
case 4:
drawsprite(x, y, crewframe, col_crewgreen);
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break;
case 5:
drawsprite(x, y, crewframe, col_crewblue);
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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 (int k = 0; k < w2-2; k++)
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{
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 (int k = 0; k < h2-2; k++)
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{
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 (int k = 0; k < w2-2; k++)
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{
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 (int k = 0; k < h2-2; k++)
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{
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++)
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{
if (m != i) textbox[i].remove();
}
}
void Graphics::textboxremovefast()
{
//Remove all textboxes
for (size_t i = 0; i < textbox.size(); i++)
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{
textbox[i].removefast();
}
}
void Graphics::textboxremove()
{
//Remove all textboxes
for (size_t i = 0; i < textbox.size(); i++)
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{
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*/, bool allowspecial/*= false*/ )
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{
m = textbox.size();
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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();
text.allowspecial = allowspecial;
textbox.push_back(text);
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}
}
void Graphics::drawfade()
{
int usethisamount = lerp(oldfadeamount, fadeamount);
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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, usethisamount, 16, 0x000000 );
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}
}
else if(fademode==5 )
{
for (int i = 0; i < 15; i++)
{
FillRect(backBuffer, fadebars[i]-usethisamount, i * 16, 500, 16, 0x000000 );
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}
}
}
void Graphics::processfade()
{
oldfadeamount = fadeamount;
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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*/ )
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{
for (size_t i = 0; i < game.menuoptions.size(); i++)
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{
if ((int) i == game.currentmenuoption)
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{
//Draw it highlighted
if (game.menuoptions[i].active)
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{
std::string tempstring = game.menuoptions[i].text;
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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;
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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)
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{
Print(110 + (i * division) +game.menuxoff, 140 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
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}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 140 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
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}
}
}
}
void Graphics::drawlevelmenu( int cr, int cg, int cb, int division /*= 30*/ )
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{
for (size_t i = 0; i < game.menuoptions.size(); i++)
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{
if ((int) i == game.currentmenuoption)
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{
if(game.menuoptions.size()-i<=3){
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//Draw it highlighted
if (game.menuoptions[i].active)
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{
std::string tempstring = game.menuoptions[i].text;
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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;
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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)
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{
std::string tempstring = game.menuoptions[i].text;
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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);
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}
else
{
std::string tempstring = game.menuoptions[i].text;
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tempstring = "[ " + tempstring + " ]";
//Draw it in gray
Print(110 + (i * division) - 16 +game.menuxoff, 144 + (i * 12)+game.menuyoff, tempstring, 128, 128, 128);
2020-01-01 21:29:24 +01:00
}
}
}
else
{
if(game.menuoptions.size()-i<=3){
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//Draw it normally
if (game.menuoptions[i].active)
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{
Print(110 + (i * division) +game.menuxoff, 140+8 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
2020-01-01 21:29:24 +01:00
}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 140+8 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
2020-01-01 21:29:24 +01:00
}
}else{
//Draw it normally
if (game.menuoptions[i].active)
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{
Print(110 + (i * division) +game.menuxoff, 144 + (i * 12)+game.menuyoff, game.menuoptions[i].text, cr, cg, cb);
2020-01-01 21:29:24 +01:00
}
else
{
//Draw it in gray
Print(110 + (i * division) +game.menuxoff, 144 + (i * 12)+game.menuyoff, game.menuoptions[i].text, 128, 128, 128);
2020-01-01 21:29:24 +01:00
}
}
}
}
}
void Graphics::drawcoloredtile( int x, int y, int t, int r, int g, int b )
{
if (!INBOUNDS(t, tiles))
{
return;
}
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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)
2020-01-01 21:29:24 +01:00
{
//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 )
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{
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()
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{
int temp, temp2, temp3;
if (obj.trophytext < 15)
{
int usethismult = lerp(obj.oldtrophytext, obj.trophytext);
temp = (196 * usethismult) / 15;
temp2 = (196 * usethismult) / 15;
temp3 = ((255 - help.glow) * usethismult) / 15;
2020-01-01 21:29:24 +01:00
}
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()
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{
point tpoint;
SDL_Rect drawRect;
std::vector<SDL_Surface*> *tilesvec;
if (map.custommode && !map.finalmode)
{
tilesvec = &entcolours;
}
else
{
tilesvec = &tiles;
}
std::vector<SDL_Surface*> *spritesvec;
if (flipmode)
{
spritesvec = &flipsprites;
}
else
{
spritesvec = &sprites;
}
int yoff;
if (map.towermode)
{
yoff = lerp(map.oldypos, map.ypos);
}
else
{
yoff = 0;
}
for (int i = obj.entities.size() - 1; i >= 0; i--)
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{
if (obj.entities[i].invis)
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{
continue;
}
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int xp = lerp(obj.entities[i].oldxp, obj.entities[i].xp);
int yp = lerp(obj.entities[i].oldyp, obj.entities[i].yp);
switch (obj.entities[i].size)
{
case 0:
// Sprites
if (!INBOUNDS(obj.entities[i].drawframe, (*spritesvec)))
{
continue;
}
tpoint.x = xp;
tpoint.y = yp - yoff;
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcolreal(obj.entities[i].realcol);
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
2020-01-01 21:29:24 +01:00
{
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);
}
2020-01-01 21:29:24 +01:00
}
else if (map.warpy)
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{
if (tpoint.y < 0)
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{
tpoint.y += 230;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
2020-01-01 21:29:24 +01:00
}
else if (tpoint.y > 210)
2020-01-01 21:29:24 +01:00
{
tpoint.y -= 230;
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
2020-01-01 21:29:24 +01:00
}
}
break;
case 1:
// Tiles
if (!INBOUNDS(obj.entities[i].drawframe, tiles))
{
continue;
}
tpoint.x = xp;
tpoint.y = 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
if (!INBOUNDS(obj.entities[i].drawframe, (*tilesvec)))
{
continue;
}
tpoint.x = xp;
tpoint.y = yp - yoff;
int thiswidth = 4;
if (obj.entities[i].size == 8)
2020-01-01 21:29:24 +01:00
{
thiswidth = 8;
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}
for (int ii = 0; ii < thiswidth; ii++)
2020-01-01 21:29:24 +01:00
{
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
drawRect.x += 8 * ii;
BlitSurfaceStandard((*tilesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect);
2020-01-01 21:29:24 +01:00
}
break;
}
case 3: // Big chunky pixels!
prect.x = xp;
prect.y = yp - yoff;
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
FillRect(backBuffer, prect, obj.entities[i].realcol);
break;
case 4: // Small pickups
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcol(obj.entities[i].realcol);
drawhuetile(xp, yp - yoff, obj.entities[i].tile);
break;
case 5: //Horizontal Line
{
int oldw = obj.entities[i].w;
if ((game.swngame == 3 || kludgeswnlinewidth) && obj.getlineat(84 - 32) == i)
{
oldw -= 24;
}
line_rect.x = xp;
line_rect.y = yp - yoff;
line_rect.w = lerp(oldw, obj.entities[i].w);
line_rect.h = 1;
drawgravityline(i);
break;
}
case 6: //Vertical Line
line_rect.x = xp;
line_rect.y = yp - yoff;
line_rect.w = 1;
line_rect.h = obj.entities[i].h;
drawgravityline(i);
break;
case 7: //Teleporter
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
drawtele(xp, yp - yoff, obj.entities[i].drawframe, obj.entities[i].realcol);
break;
//case 8: // Special: Moving platform, 8 tiles
// Note: This code is in the 4-tile code
break;
case 9: // Really Big Sprite! (2x2)
if (!INBOUNDS(obj.entities[i].drawframe, (*spritesvec)))
{
continue;
}
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcolreal(obj.entities[i].realcol);
tpoint.x = xp;
tpoint.y = 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 = xp+32;
tpoint.y = 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 = xp;
tpoint.y = 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 = xp+32;
tpoint.y = 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
if (!INBOUNDS(obj.entities[i].drawframe, (*spritesvec)))
{
continue;
}
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcolreal(obj.entities[i].realcol);
tpoint.x = xp;
tpoint.y = 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 = xp+32;
tpoint.y = 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
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcolreal(obj.entities[i].realcol);
drawimagecol(3, xp, yp - yoff);
break;
case 12: // Regular sprites that don't wrap
if (!INBOUNDS(obj.entities[i].drawframe, (*spritesvec)))
{
continue;
}
tpoint.x = xp;
tpoint.y = yp - yoff;
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
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setcolreal(obj.entities[i].realcol);
//
drawRect = sprites_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured((*spritesvec)[obj.entities[i].drawframe],NULL, backBuffer, &drawRect, ct);
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//if we're outside the screen, we need to draw indicators
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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;
}
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tpoint.y = tpoint.y+4;
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drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured(tiles[1167],NULL, backBuffer, &drawRect, ct);
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}
else if (obj.entities[i].xp > 340 && obj.entities[i].vx < 0)
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{
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;
//
drawRect = tiles_rect;
drawRect.x += tpoint.x;
drawRect.y += tpoint.y;
BlitSurfaceColoured(tiles[1166],NULL, backBuffer, &drawRect, ct);
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}
break;
case 13:
{
//Special for epilogue: huge hero!
if (!INBOUNDS(obj.entities[i].drawframe, (*spritesvec)))
{
continue;
}
tpoint.x = xp; tpoint.y = yp - yoff;
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
2020-05-01 02:34:37 +02:00
setcolreal(obj.entities[i].realcol);
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);
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break;
}
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}
}
}
void Graphics::drawbackground( int t )
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{
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;
SDL_Rect star_rect = stars[i];
star_rect.x = lerp(star_rect.x + starsspeed[i], star_rect.x);
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if (starsspeed[i] <= 6)
{
FillRect(backBuffer,star_rect, getRGB(0x22,0x22,0x22));
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}
else
{
FillRect(backBuffer,star_rect, getRGB(0x55,0x55,0x55));
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}
}
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
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;
}
SDL_Rect backboxrect = backboxes[i];
backboxrect.x = lerp(backboxes[i].x - backboxvx[i], backboxes[i].x);
backboxrect.y = lerp(backboxes[i].y - backboxvy[i], backboxes[i].y);
FillRect(backBuffer, backboxrect, bcol);
backboxrect.x += 1;
backboxrect.y += 1;
backboxrect.w -= 2;
backboxrect.h -= 2;
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FillRect(backBuffer,backboxrect, bcol2);
}
break;
case 3: //Warp zone (horizontal)
FillRect(backBuffer, 0x000000);
BlitSurfaceStandard(towerbuffer, NULL, towerbuffer_lerp, NULL);
ScrollSurface(towerbuffer_lerp, lerp(0, -3), 0);
BlitSurfaceStandard(towerbuffer_lerp, NULL, backBuffer, NULL);
2020-01-01 21:29:24 +01:00
break;
case 4: //Warp zone (vertical)
FillRect(backBuffer, 0x000000);
SDL_BlitSurface(towerbuffer, NULL, towerbuffer_lerp, NULL);
ScrollSurface(towerbuffer_lerp, 0, lerp(0, -3));
SDL_BlitSurface(towerbuffer_lerp,NULL, backBuffer,NULL);
2020-01-01 21:29:24 +01:00
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);
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}
for (int i = 10 ; i >= 0; i--)
{
temp = (i << 4) + lerp(backoffset - 1, backoffset);
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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++)
{
stars[i].w = 2;
stars[i].h = 2;
SDL_Rect star_rect = stars[i];
star_rect.y = lerp(star_rect.y + starsspeed[i], star_rect.y);
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if (starsspeed[i] <= 8)
{
FillRect(backBuffer, star_rect, getRGB(0x22, 0x22, 0x22));
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}
else
{
FillRect(backBuffer, star_rect, getRGB(0x55, 0x55, 0x55));
2020-01-01 21:29:24 +01:00
}
}
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::updatebackground(int t)
{
switch (t)
{
case 1:
//Starfield
for (int i = 0; i < 50; i++)
{
stars[i].w = 2;
stars[i].h = 2;
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
if (rcol == 6)
{
//crazy caze
spcoldel--;
if (spcoldel <= 0)
{
spcoldel = 15;
spcol++;
if (spcol >= 12) spcol = 0;
}
}
for (int i = 0; i < 18; i++)
{
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)
{
int temp = 680 + (rcol * 3);
backoffset+=3;
if (backoffset >= 16) backoffset -= 16;
if (backgrounddrawn)
{
ScrollSurface(towerbuffer, -3, 0 );
for (int j = 0; j < 15; j++)
{
for (int i = 0; i < 2; i++)
{
drawtowertile(317 - backoffset + (i * 16), (j * 16), temp+40); //20*16 = 320
drawtowertile(317 - backoffset + (i * 16) + 8, (j * 16), temp + 41);
drawtowertile(317 - backoffset + (i * 16), (j * 16) + 8, temp + 80);
drawtowertile(317 - backoffset + (i * 16) + 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++)
{
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;
}
break;
}
case 4: //Warp zone (vertical)
{
int temp = 760 + (rcol * 3);
backoffset+=3;
if (backoffset >= 16) backoffset -= 16;
if (backgrounddrawn)
{
ScrollSurface(towerbuffer,0,-3);
for (int j = 0; j < 2; j++)
{
for (int i = 0; i < 21; i++)
{
drawtowertile((i * 16), 237 - backoffset + (j * 16), temp + 40); //14*17=240 - 3
drawtowertile((i * 16) + 8, 237 - backoffset + (j * 16), temp + 41);
drawtowertile((i * 16), 237 - backoffset + (j * 16) + 8, temp + 80);
drawtowertile((i * 16) + 8, 237 - backoffset + (j * 16) + 8, temp + 81);
}
}
}
else
{
//draw the whole thing for the first time!
backoffset = 0;
FillRect(towerbuffer,0x000000 );
for (int j = 0; j < 16; j++)
{
for (int i = 0; i < 21; i++)
{
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;
}
break;
}
case 5:
//Warp zone, central
backoffset += 1;
if (backoffset >= 16)
{
backoffset -= 16;
warpskip = (warpskip + 1) % 2;
}
break;
case 6:
//Final Starfield
for (int i = 0; i < 50; i++)
{
stars[i].w = 2;
stars[i].h = 2;
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;
}
}
void Graphics::drawmap()
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{
if (!foregrounddrawn)
{
FillRect(foregroundBuffer, 0x00000000);
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if(map.tileset==0)
{
for (int j = 0; j < 30; j++)
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{
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)
{
Add and draw one more row to all rooms with roomnames Since translucent roomname backgrounds were introduced in TerryCavanagh/VVVVVV#122, it exposes one glaring flaw with the game that until now has been kept hidden: in rooms with room names, the game cheapens out with the tile data and doesn't have a 30th row, because the room name would hide the missing row. As a result, rooms with room names have 29 rows instead of 30 to fill up the entire screen. And it looks really weird when there's nothing but empty space behind the translucent room name background. To remedy this, I added one row to each room with a room name in the level. First, I had to filter out all the rooms with no room names. However, that's actually all contained in Otherlevel.cpp, the Overworld, which contains 221 rooms (8 of which are the Secret Lab, 6 more of which are the Ship, so 207 are the actual Overworld, right? Wrong, 2 of those Overworld no-roomname rooms are in the Lab, so there are actually 205 Overworld rooms). The remaining level data files all contain rooms with room names. But the process wasn't that easy. I noticed a while ago that each room contains 29 `tmap.push_back()`s, one for each row of the room, and each row is simply a string containing the 40 tiles for that row, concatenated with commas. However, I decided to actually check my intuition by doing a grep on each level file and counting the number of results, for example `grep 'push_back' Labclass.cpp | wc -l`. Whatever number comes out should be divisible by 29. That particular grep on Labclass.cpp returns 1306, which divided by 29 is 45 with a remainder of 1. So what does that mean? Does that mean there's 45 rooms each, and 1 leftover row? Well, not exactly. The extra row comes from the fact that Outer Space has 30 rows instead of 29. Outer Space is the room that comes up when the game finds a room is non-existent, which shouldn't happen with a properly-working game, except in Outside Dimension VVVVVV. In fact, each level file has their own Outer Space, and every single Outer Space also has 30 rooms. So really, this means there are 44 rooms in the Lab and one Outer Space room. (Well, in reality, there are 46 rooms in the Lab, because 2 of them use the Outside tileset but have no room names, so they're stored in Otherlevel.cpp instead.) We find the same result for the Warp Zone. `grep 'push_back' WarpClass.cpp | wc -l` returns 697, which is 24 remainder 1, meaning 23 rooms of 29 rows and 1 room of 30 rows, which corresponds with 23 rooms in the Warp Zone and one Outer Space room. However, Outside Dimension VVVVVV + Tower Hallways and Space Station 1 and 2 are both odd curiosities. Finalclass.cpp contains Outside Dimension VVVVVV, (which is Intermission 1 and 2 and the Final Level), but also the Tower Hallway rooms, i.e. the auxiliary Tower rooms that are not a part of the main tower. Spacestation2.cpp contains both Space Station 1 and 2, so don't be deceived by the name. `grep 'push_back' Finalclass.cpp | wc -l` returns 1597, which is actually 55 remainder 2. So... are there two rooms with 30 rows? Yes, in fact, The Gravitron and Outer Space both contain 30 rows. So there are actually 55 rooms stored in Finalclass.cpp (not including the minitowers Panic Room and The Final Challenge), 54 rooms of actual level data and one Outer Space room, and breaking down the 54 rooms even further, 51 of them are actually in Outside Dimension VVVVVV and 3 of them are Tower Hallways. Of the 51 Outside Dimension VVVVVV rooms, 14 of those are Intermission 1, 4 of them are Intermission 2, and the rest of the 33 rooms are the Final Level (again, not including the minitowers). `grep 'push_back' Spacestation2.cpp | wc -l` returns 2148, which is 74 remainder 2. Are there two rooms with 30 rows again? No; one of those counted 2148 rows is a false-positive, because there's an if-else in Prize for the Reckless that replaces the row with spikes with a row without spikes if you are in a time trial or in No Death Mode. So there's 73 rooms in Space Station 1 and 2, and one Outer Space room. With all this in mind, I decided to duplicate the current last row of each room, the 29th row, to add a 30th row. However, I wasn't going to do this automatically! But neither was I going to write some kludge-y code to parse each nightmare of a level file and duplicate the rows that way. Enter: Vim macros! (Er, well, actually, I use Neovim.) I first did `/push_back`, so that pressing `n` would keep going to the next `push_back` in the file. Then I went to the 29th row of the first room in the file, did a `Yp`, and then started my macro with `qq`. The macro went like this: `30nYp`, which is simply going to the 29th row of the next room over and duplicating it. And that's all there was to it. However, I had to make sure that (1) my cursor was before the `push_back` on the line of the 29th row of the room, and (2) that I didn't skip rooms, both of which were problems I encountered when pressing Ctrl+Z a given invocation of the macro (the Ctrl+Z is just a metaphor, you actually undo by typing `u` in Vim). And also I had to make sure to be careful around the extra lines of `push_back`s in Prize for the Reckless and The Gravitron, and make sure I didn't run past the end of the file and loop back around. Thankfully, all Outer Space rooms are at the end of each file. But first, I had to increase the number of rows drawn in Graphics.cpp by 1 in order to compensate for this, and do the same when reading the tile data in Map.cpp. I had to change fillcontent(), drawmap(), drawfinalmap(), drawtowermap(), and drawtowermap_nobackground(). Funnily enough, the tower functions already used 30 rows, but I guess it's an off-by-one due to the camera scrolling, so they now draw 31 rows each. Then, I went in-game to make sure that the row behind each room name looked fine. I checked EVERY single room with a room name. I turned on invincibility mode and added a temporary line to hardreset() that always turned on game.nocutscenes for a smoother playtesting experience. And to make sure that rooms which have entirely empty bottom rows actually still have 30 rows, instead of having 29 and the game assuming that the 30th row was empty (because that sounds like it could lead to Undefined Behavior), I added this temporary debugging line to the start of mapclass::fillcontent(): printf("(%i,%i) has %i rows\n", game.roomx, game.roomy, (int) tmap.size()); Everywhere I checked - and I made sure to check all rooms - every room had 30 rows and not 29 rows. Unfortunately, some rooms simply couldn't be left alone with their 29th row duplicated and had to be manually edited. This was because the 29th row would contain some edge tiles because the player would be able to walk somewhere on the 28th, 27th, and 26th rows, and if you duplicated said edge tiles behind the room name, it would look bad. Here's a list of rooms whose 30th rows I had to manually edit: - Comms Relay - The Yes Men - Stop and Reflect - They Call Him Flipper - Double-slit Experiment - Square Root - Brought to you by the letter G - The Bernoulli Principle - Purest Unobtainium - I Smell Ozone - Conveying a New Idea - Upstream Downstream - Give Me A V - $eeing Dollar $ign$ - Doing Things The Hard Way - Very Good - Must I Do Everything For You? - Now Stay Close To Me... - ...But Not Too Close - ...Not as I Do - Do Try To Keep Up - Whee Sports - As you like it This is actually a strange case where it looked bad because of the 29th row, instead of the 30th row, and I had to change the 29th row instead of the 30th row to fix it. - Maze With No Entrance - Ascending and Descending - Mind The Gap Same strange case as "As you like it" (it's the 29th row I had to change that was the problem, not the 30th). - 1950 Silverstone Grand V - The Villi People I found that Panic Room and The Final Challenge also looked strange behind the roomname background, but I can't do much about either because towers' tile data wrap around at the top and bottom, and if I added another row to either it would be visible above the room name. I've considered updating the development editors with these new level tiles, but I decided against it as the development editors are already pretty outdated anyway.
2020-02-03 22:24:30 +01:00
for (int jt = 0; jt < 30; jt++)
2020-01-01 21:29:24 +01:00
{
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 (int j = 0; j < 30; j++)
2020-01-01 21:29:24 +01:00
{
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);
2020-01-01 21:29:24 +01:00
}
void Graphics::drawfinalmap()
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{
if (!foregrounddrawn) {
FillRect(foregroundBuffer, 0x00000000);
if(map.tileset==0){
Add and draw one more row to all rooms with roomnames Since translucent roomname backgrounds were introduced in TerryCavanagh/VVVVVV#122, it exposes one glaring flaw with the game that until now has been kept hidden: in rooms with room names, the game cheapens out with the tile data and doesn't have a 30th row, because the room name would hide the missing row. As a result, rooms with room names have 29 rows instead of 30 to fill up the entire screen. And it looks really weird when there's nothing but empty space behind the translucent room name background. To remedy this, I added one row to each room with a room name in the level. First, I had to filter out all the rooms with no room names. However, that's actually all contained in Otherlevel.cpp, the Overworld, which contains 221 rooms (8 of which are the Secret Lab, 6 more of which are the Ship, so 207 are the actual Overworld, right? Wrong, 2 of those Overworld no-roomname rooms are in the Lab, so there are actually 205 Overworld rooms). The remaining level data files all contain rooms with room names. But the process wasn't that easy. I noticed a while ago that each room contains 29 `tmap.push_back()`s, one for each row of the room, and each row is simply a string containing the 40 tiles for that row, concatenated with commas. However, I decided to actually check my intuition by doing a grep on each level file and counting the number of results, for example `grep 'push_back' Labclass.cpp | wc -l`. Whatever number comes out should be divisible by 29. That particular grep on Labclass.cpp returns 1306, which divided by 29 is 45 with a remainder of 1. So what does that mean? Does that mean there's 45 rooms each, and 1 leftover row? Well, not exactly. The extra row comes from the fact that Outer Space has 30 rows instead of 29. Outer Space is the room that comes up when the game finds a room is non-existent, which shouldn't happen with a properly-working game, except in Outside Dimension VVVVVV. In fact, each level file has their own Outer Space, and every single Outer Space also has 30 rooms. So really, this means there are 44 rooms in the Lab and one Outer Space room. (Well, in reality, there are 46 rooms in the Lab, because 2 of them use the Outside tileset but have no room names, so they're stored in Otherlevel.cpp instead.) We find the same result for the Warp Zone. `grep 'push_back' WarpClass.cpp | wc -l` returns 697, which is 24 remainder 1, meaning 23 rooms of 29 rows and 1 room of 30 rows, which corresponds with 23 rooms in the Warp Zone and one Outer Space room. However, Outside Dimension VVVVVV + Tower Hallways and Space Station 1 and 2 are both odd curiosities. Finalclass.cpp contains Outside Dimension VVVVVV, (which is Intermission 1 and 2 and the Final Level), but also the Tower Hallway rooms, i.e. the auxiliary Tower rooms that are not a part of the main tower. Spacestation2.cpp contains both Space Station 1 and 2, so don't be deceived by the name. `grep 'push_back' Finalclass.cpp | wc -l` returns 1597, which is actually 55 remainder 2. So... are there two rooms with 30 rows? Yes, in fact, The Gravitron and Outer Space both contain 30 rows. So there are actually 55 rooms stored in Finalclass.cpp (not including the minitowers Panic Room and The Final Challenge), 54 rooms of actual level data and one Outer Space room, and breaking down the 54 rooms even further, 51 of them are actually in Outside Dimension VVVVVV and 3 of them are Tower Hallways. Of the 51 Outside Dimension VVVVVV rooms, 14 of those are Intermission 1, 4 of them are Intermission 2, and the rest of the 33 rooms are the Final Level (again, not including the minitowers). `grep 'push_back' Spacestation2.cpp | wc -l` returns 2148, which is 74 remainder 2. Are there two rooms with 30 rows again? No; one of those counted 2148 rows is a false-positive, because there's an if-else in Prize for the Reckless that replaces the row with spikes with a row without spikes if you are in a time trial or in No Death Mode. So there's 73 rooms in Space Station 1 and 2, and one Outer Space room. With all this in mind, I decided to duplicate the current last row of each room, the 29th row, to add a 30th row. However, I wasn't going to do this automatically! But neither was I going to write some kludge-y code to parse each nightmare of a level file and duplicate the rows that way. Enter: Vim macros! (Er, well, actually, I use Neovim.) I first did `/push_back`, so that pressing `n` would keep going to the next `push_back` in the file. Then I went to the 29th row of the first room in the file, did a `Yp`, and then started my macro with `qq`. The macro went like this: `30nYp`, which is simply going to the 29th row of the next room over and duplicating it. And that's all there was to it. However, I had to make sure that (1) my cursor was before the `push_back` on the line of the 29th row of the room, and (2) that I didn't skip rooms, both of which were problems I encountered when pressing Ctrl+Z a given invocation of the macro (the Ctrl+Z is just a metaphor, you actually undo by typing `u` in Vim). And also I had to make sure to be careful around the extra lines of `push_back`s in Prize for the Reckless and The Gravitron, and make sure I didn't run past the end of the file and loop back around. Thankfully, all Outer Space rooms are at the end of each file. But first, I had to increase the number of rows drawn in Graphics.cpp by 1 in order to compensate for this, and do the same when reading the tile data in Map.cpp. I had to change fillcontent(), drawmap(), drawfinalmap(), drawtowermap(), and drawtowermap_nobackground(). Funnily enough, the tower functions already used 30 rows, but I guess it's an off-by-one due to the camera scrolling, so they now draw 31 rows each. Then, I went in-game to make sure that the row behind each room name looked fine. I checked EVERY single room with a room name. I turned on invincibility mode and added a temporary line to hardreset() that always turned on game.nocutscenes for a smoother playtesting experience. And to make sure that rooms which have entirely empty bottom rows actually still have 30 rows, instead of having 29 and the game assuming that the 30th row was empty (because that sounds like it could lead to Undefined Behavior), I added this temporary debugging line to the start of mapclass::fillcontent(): printf("(%i,%i) has %i rows\n", game.roomx, game.roomy, (int) tmap.size()); Everywhere I checked - and I made sure to check all rooms - every room had 30 rows and not 29 rows. Unfortunately, some rooms simply couldn't be left alone with their 29th row duplicated and had to be manually edited. This was because the 29th row would contain some edge tiles because the player would be able to walk somewhere on the 28th, 27th, and 26th rows, and if you duplicated said edge tiles behind the room name, it would look bad. Here's a list of rooms whose 30th rows I had to manually edit: - Comms Relay - The Yes Men - Stop and Reflect - They Call Him Flipper - Double-slit Experiment - Square Root - Brought to you by the letter G - The Bernoulli Principle - Purest Unobtainium - I Smell Ozone - Conveying a New Idea - Upstream Downstream - Give Me A V - $eeing Dollar $ign$ - Doing Things The Hard Way - Very Good - Must I Do Everything For You? - Now Stay Close To Me... - ...But Not Too Close - ...Not as I Do - Do Try To Keep Up - Whee Sports - As you like it This is actually a strange case where it looked bad because of the 29th row, instead of the 30th row, and I had to change the 29th row instead of the 30th row to fix it. - Maze With No Entrance - Ascending and Descending - Mind The Gap Same strange case as "As you like it" (it's the 29th row I had to change that was the problem, not the 30th). - 1950 Silverstone Grand V - The Villi People I found that Panic Room and The Final Challenge also looked strange behind the roomname background, but I can't do much about either because towers' tile data wrap around at the top and bottom, and if I added another row to either it would be visible above the room name. I've considered updating the development editors with these new level tiles, but I decided against it as the development editors are already pretty outdated anyway.
2020-02-03 22:24:30 +01:00
for (int j = 0; j < 30; 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) {
Add and draw one more row to all rooms with roomnames Since translucent roomname backgrounds were introduced in TerryCavanagh/VVVVVV#122, it exposes one glaring flaw with the game that until now has been kept hidden: in rooms with room names, the game cheapens out with the tile data and doesn't have a 30th row, because the room name would hide the missing row. As a result, rooms with room names have 29 rows instead of 30 to fill up the entire screen. And it looks really weird when there's nothing but empty space behind the translucent room name background. To remedy this, I added one row to each room with a room name in the level. First, I had to filter out all the rooms with no room names. However, that's actually all contained in Otherlevel.cpp, the Overworld, which contains 221 rooms (8 of which are the Secret Lab, 6 more of which are the Ship, so 207 are the actual Overworld, right? Wrong, 2 of those Overworld no-roomname rooms are in the Lab, so there are actually 205 Overworld rooms). The remaining level data files all contain rooms with room names. But the process wasn't that easy. I noticed a while ago that each room contains 29 `tmap.push_back()`s, one for each row of the room, and each row is simply a string containing the 40 tiles for that row, concatenated with commas. However, I decided to actually check my intuition by doing a grep on each level file and counting the number of results, for example `grep 'push_back' Labclass.cpp | wc -l`. Whatever number comes out should be divisible by 29. That particular grep on Labclass.cpp returns 1306, which divided by 29 is 45 with a remainder of 1. So what does that mean? Does that mean there's 45 rooms each, and 1 leftover row? Well, not exactly. The extra row comes from the fact that Outer Space has 30 rows instead of 29. Outer Space is the room that comes up when the game finds a room is non-existent, which shouldn't happen with a properly-working game, except in Outside Dimension VVVVVV. In fact, each level file has their own Outer Space, and every single Outer Space also has 30 rooms. So really, this means there are 44 rooms in the Lab and one Outer Space room. (Well, in reality, there are 46 rooms in the Lab, because 2 of them use the Outside tileset but have no room names, so they're stored in Otherlevel.cpp instead.) We find the same result for the Warp Zone. `grep 'push_back' WarpClass.cpp | wc -l` returns 697, which is 24 remainder 1, meaning 23 rooms of 29 rows and 1 room of 30 rows, which corresponds with 23 rooms in the Warp Zone and one Outer Space room. However, Outside Dimension VVVVVV + Tower Hallways and Space Station 1 and 2 are both odd curiosities. Finalclass.cpp contains Outside Dimension VVVVVV, (which is Intermission 1 and 2 and the Final Level), but also the Tower Hallway rooms, i.e. the auxiliary Tower rooms that are not a part of the main tower. Spacestation2.cpp contains both Space Station 1 and 2, so don't be deceived by the name. `grep 'push_back' Finalclass.cpp | wc -l` returns 1597, which is actually 55 remainder 2. So... are there two rooms with 30 rows? Yes, in fact, The Gravitron and Outer Space both contain 30 rows. So there are actually 55 rooms stored in Finalclass.cpp (not including the minitowers Panic Room and The Final Challenge), 54 rooms of actual level data and one Outer Space room, and breaking down the 54 rooms even further, 51 of them are actually in Outside Dimension VVVVVV and 3 of them are Tower Hallways. Of the 51 Outside Dimension VVVVVV rooms, 14 of those are Intermission 1, 4 of them are Intermission 2, and the rest of the 33 rooms are the Final Level (again, not including the minitowers). `grep 'push_back' Spacestation2.cpp | wc -l` returns 2148, which is 74 remainder 2. Are there two rooms with 30 rows again? No; one of those counted 2148 rows is a false-positive, because there's an if-else in Prize for the Reckless that replaces the row with spikes with a row without spikes if you are in a time trial or in No Death Mode. So there's 73 rooms in Space Station 1 and 2, and one Outer Space room. With all this in mind, I decided to duplicate the current last row of each room, the 29th row, to add a 30th row. However, I wasn't going to do this automatically! But neither was I going to write some kludge-y code to parse each nightmare of a level file and duplicate the rows that way. Enter: Vim macros! (Er, well, actually, I use Neovim.) I first did `/push_back`, so that pressing `n` would keep going to the next `push_back` in the file. Then I went to the 29th row of the first room in the file, did a `Yp`, and then started my macro with `qq`. The macro went like this: `30nYp`, which is simply going to the 29th row of the next room over and duplicating it. And that's all there was to it. However, I had to make sure that (1) my cursor was before the `push_back` on the line of the 29th row of the room, and (2) that I didn't skip rooms, both of which were problems I encountered when pressing Ctrl+Z a given invocation of the macro (the Ctrl+Z is just a metaphor, you actually undo by typing `u` in Vim). And also I had to make sure to be careful around the extra lines of `push_back`s in Prize for the Reckless and The Gravitron, and make sure I didn't run past the end of the file and loop back around. Thankfully, all Outer Space rooms are at the end of each file. But first, I had to increase the number of rows drawn in Graphics.cpp by 1 in order to compensate for this, and do the same when reading the tile data in Map.cpp. I had to change fillcontent(), drawmap(), drawfinalmap(), drawtowermap(), and drawtowermap_nobackground(). Funnily enough, the tower functions already used 30 rows, but I guess it's an off-by-one due to the camera scrolling, so they now draw 31 rows each. Then, I went in-game to make sure that the row behind each room name looked fine. I checked EVERY single room with a room name. I turned on invincibility mode and added a temporary line to hardreset() that always turned on game.nocutscenes for a smoother playtesting experience. And to make sure that rooms which have entirely empty bottom rows actually still have 30 rows, instead of having 29 and the game assuming that the 30th row was empty (because that sounds like it could lead to Undefined Behavior), I added this temporary debugging line to the start of mapclass::fillcontent(): printf("(%i,%i) has %i rows\n", game.roomx, game.roomy, (int) tmap.size()); Everywhere I checked - and I made sure to check all rooms - every room had 30 rows and not 29 rows. Unfortunately, some rooms simply couldn't be left alone with their 29th row duplicated and had to be manually edited. This was because the 29th row would contain some edge tiles because the player would be able to walk somewhere on the 28th, 27th, and 26th rows, and if you duplicated said edge tiles behind the room name, it would look bad. Here's a list of rooms whose 30th rows I had to manually edit: - Comms Relay - The Yes Men - Stop and Reflect - They Call Him Flipper - Double-slit Experiment - Square Root - Brought to you by the letter G - The Bernoulli Principle - Purest Unobtainium - I Smell Ozone - Conveying a New Idea - Upstream Downstream - Give Me A V - $eeing Dollar $ign$ - Doing Things The Hard Way - Very Good - Must I Do Everything For You? - Now Stay Close To Me... - ...But Not Too Close - ...Not as I Do - Do Try To Keep Up - Whee Sports - As you like it This is actually a strange case where it looked bad because of the 29th row, instead of the 30th row, and I had to change the 29th row instead of the 30th row to fix it. - Maze With No Entrance - Ascending and Descending - Mind The Gap Same strange case as "As you like it" (it's the 29th row I had to change that was the problem, not the 30th). - 1950 Silverstone Grand V - The Villi People I found that Panic Room and The Final Challenge also looked strange behind the roomname background, but I can't do much about either because towers' tile data wrap around at the top and bottom, and if I added another row to either it would be visible above the room name. I've considered updating the development editors with these new level tiles, but I decided against it as the development editors are already pretty outdated anyway.
2020-02-03 22:24:30 +01:00
for (int j = 0; j < 30; 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);
2020-01-01 21:29:24 +01:00
}
void Graphics::drawtowermap()
2020-01-01 21:29:24 +01:00
{
int temp;
int yoff = lerp(map.oldypos, map.ypos);
Add and draw one more row to all rooms with roomnames Since translucent roomname backgrounds were introduced in TerryCavanagh/VVVVVV#122, it exposes one glaring flaw with the game that until now has been kept hidden: in rooms with room names, the game cheapens out with the tile data and doesn't have a 30th row, because the room name would hide the missing row. As a result, rooms with room names have 29 rows instead of 30 to fill up the entire screen. And it looks really weird when there's nothing but empty space behind the translucent room name background. To remedy this, I added one row to each room with a room name in the level. First, I had to filter out all the rooms with no room names. However, that's actually all contained in Otherlevel.cpp, the Overworld, which contains 221 rooms (8 of which are the Secret Lab, 6 more of which are the Ship, so 207 are the actual Overworld, right? Wrong, 2 of those Overworld no-roomname rooms are in the Lab, so there are actually 205 Overworld rooms). The remaining level data files all contain rooms with room names. But the process wasn't that easy. I noticed a while ago that each room contains 29 `tmap.push_back()`s, one for each row of the room, and each row is simply a string containing the 40 tiles for that row, concatenated with commas. However, I decided to actually check my intuition by doing a grep on each level file and counting the number of results, for example `grep 'push_back' Labclass.cpp | wc -l`. Whatever number comes out should be divisible by 29. That particular grep on Labclass.cpp returns 1306, which divided by 29 is 45 with a remainder of 1. So what does that mean? Does that mean there's 45 rooms each, and 1 leftover row? Well, not exactly. The extra row comes from the fact that Outer Space has 30 rows instead of 29. Outer Space is the room that comes up when the game finds a room is non-existent, which shouldn't happen with a properly-working game, except in Outside Dimension VVVVVV. In fact, each level file has their own Outer Space, and every single Outer Space also has 30 rooms. So really, this means there are 44 rooms in the Lab and one Outer Space room. (Well, in reality, there are 46 rooms in the Lab, because 2 of them use the Outside tileset but have no room names, so they're stored in Otherlevel.cpp instead.) We find the same result for the Warp Zone. `grep 'push_back' WarpClass.cpp | wc -l` returns 697, which is 24 remainder 1, meaning 23 rooms of 29 rows and 1 room of 30 rows, which corresponds with 23 rooms in the Warp Zone and one Outer Space room. However, Outside Dimension VVVVVV + Tower Hallways and Space Station 1 and 2 are both odd curiosities. Finalclass.cpp contains Outside Dimension VVVVVV, (which is Intermission 1 and 2 and the Final Level), but also the Tower Hallway rooms, i.e. the auxiliary Tower rooms that are not a part of the main tower. Spacestation2.cpp contains both Space Station 1 and 2, so don't be deceived by the name. `grep 'push_back' Finalclass.cpp | wc -l` returns 1597, which is actually 55 remainder 2. So... are there two rooms with 30 rows? Yes, in fact, The Gravitron and Outer Space both contain 30 rows. So there are actually 55 rooms stored in Finalclass.cpp (not including the minitowers Panic Room and The Final Challenge), 54 rooms of actual level data and one Outer Space room, and breaking down the 54 rooms even further, 51 of them are actually in Outside Dimension VVVVVV and 3 of them are Tower Hallways. Of the 51 Outside Dimension VVVVVV rooms, 14 of those are Intermission 1, 4 of them are Intermission 2, and the rest of the 33 rooms are the Final Level (again, not including the minitowers). `grep 'push_back' Spacestation2.cpp | wc -l` returns 2148, which is 74 remainder 2. Are there two rooms with 30 rows again? No; one of those counted 2148 rows is a false-positive, because there's an if-else in Prize for the Reckless that replaces the row with spikes with a row without spikes if you are in a time trial or in No Death Mode. So there's 73 rooms in Space Station 1 and 2, and one Outer Space room. With all this in mind, I decided to duplicate the current last row of each room, the 29th row, to add a 30th row. However, I wasn't going to do this automatically! But neither was I going to write some kludge-y code to parse each nightmare of a level file and duplicate the rows that way. Enter: Vim macros! (Er, well, actually, I use Neovim.) I first did `/push_back`, so that pressing `n` would keep going to the next `push_back` in the file. Then I went to the 29th row of the first room in the file, did a `Yp`, and then started my macro with `qq`. The macro went like this: `30nYp`, which is simply going to the 29th row of the next room over and duplicating it. And that's all there was to it. However, I had to make sure that (1) my cursor was before the `push_back` on the line of the 29th row of the room, and (2) that I didn't skip rooms, both of which were problems I encountered when pressing Ctrl+Z a given invocation of the macro (the Ctrl+Z is just a metaphor, you actually undo by typing `u` in Vim). And also I had to make sure to be careful around the extra lines of `push_back`s in Prize for the Reckless and The Gravitron, and make sure I didn't run past the end of the file and loop back around. Thankfully, all Outer Space rooms are at the end of each file. But first, I had to increase the number of rows drawn in Graphics.cpp by 1 in order to compensate for this, and do the same when reading the tile data in Map.cpp. I had to change fillcontent(), drawmap(), drawfinalmap(), drawtowermap(), and drawtowermap_nobackground(). Funnily enough, the tower functions already used 30 rows, but I guess it's an off-by-one due to the camera scrolling, so they now draw 31 rows each. Then, I went in-game to make sure that the row behind each room name looked fine. I checked EVERY single room with a room name. I turned on invincibility mode and added a temporary line to hardreset() that always turned on game.nocutscenes for a smoother playtesting experience. And to make sure that rooms which have entirely empty bottom rows actually still have 30 rows, instead of having 29 and the game assuming that the 30th row was empty (because that sounds like it could lead to Undefined Behavior), I added this temporary debugging line to the start of mapclass::fillcontent(): printf("(%i,%i) has %i rows\n", game.roomx, game.roomy, (int) tmap.size()); Everywhere I checked - and I made sure to check all rooms - every room had 30 rows and not 29 rows. Unfortunately, some rooms simply couldn't be left alone with their 29th row duplicated and had to be manually edited. This was because the 29th row would contain some edge tiles because the player would be able to walk somewhere on the 28th, 27th, and 26th rows, and if you duplicated said edge tiles behind the room name, it would look bad. Here's a list of rooms whose 30th rows I had to manually edit: - Comms Relay - The Yes Men - Stop and Reflect - They Call Him Flipper - Double-slit Experiment - Square Root - Brought to you by the letter G - The Bernoulli Principle - Purest Unobtainium - I Smell Ozone - Conveying a New Idea - Upstream Downstream - Give Me A V - $eeing Dollar $ign$ - Doing Things The Hard Way - Very Good - Must I Do Everything For You? - Now Stay Close To Me... - ...But Not Too Close - ...Not as I Do - Do Try To Keep Up - Whee Sports - As you like it This is actually a strange case where it looked bad because of the 29th row, instead of the 30th row, and I had to change the 29th row instead of the 30th row to fix it. - Maze With No Entrance - Ascending and Descending - Mind The Gap Same strange case as "As you like it" (it's the 29th row I had to change that was the problem, not the 30th). - 1950 Silverstone Grand V - The Villi People I found that Panic Room and The Final Challenge also looked strange behind the roomname background, but I can't do much about either because towers' tile data wrap around at the top and bottom, and if I added another row to either it would be visible above the room name. I've considered updating the development editors with these new level tiles, but I decided against it as the development editors are already pretty outdated anyway.
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for (int j = 0; j < 31; j++)
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{
for (int i = 0; i < 40; i++)
{
temp = map.tower.at(i, j, yoff);
if (temp > 0) drawtile3(i * 8, (j * 8) - (yoff % 8), temp, map.colstate);
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}
}
}
void Graphics::drawtowermap_nobackground()
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{
int temp;
int yoff = lerp(map.oldypos, map.ypos);
for (int j = 0; j < 31; j++)
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{
for (int i = 0; i < 40; i++)
{
temp = map.tower.at(i, j, yoff);
if (temp > 0 && temp<28) drawtile3(i * 8, (j * 8) - (yoff % 8), temp, map.colstate);
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}
}
}
void Graphics::drawtowerspikes()
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{
int spikeleveltop = lerp(map.oldspikeleveltop, map.spikeleveltop);
int spikelevelbottom = lerp(map.oldspikelevelbottom, map.spikelevelbottom);
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for (int i = 0; i < 40; i++)
{
drawtile3(i * 8, -8+spikeleveltop, 9, map.colstate);
drawtile3(i * 8, 230-spikelevelbottom, 8, map.colstate);
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}
}
void Graphics::drawtowerbackground()
{
FillRect(backBuffer, 0x000000);
SDL_BlitSurface(towerbuffer, NULL, towerbuffer_lerp, NULL);
ScrollSurface(towerbuffer_lerp, 0, lerp(0, -map.bscroll));
SDL_BlitSurface(towerbuffer_lerp,NULL, backBuffer,NULL);
}
void Graphics::updatetowerbackground()
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{
int temp;
if (map.bypos < 0) map.bypos += 120 * 8;
if (map.tdrawback)
{
int off = map.scrolldir == 0 ? 0 : map.bscroll;
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//Draw the whole thing; needed for every colour cycle!
for (int j = 0; j < 32; j++)
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{
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);
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}
}
map.tdrawback = false;
}
else
{
//just update the bottom
ScrollSurface(towerbuffer, 0, -map.bscroll);
if (map.scrolldir == 0)
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{
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);
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.
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temp = map.tower.backat(i, 31, map.bypos);
drawtowertile3(i * 8, 31*8 - (map.bypos % 8) - map.bscroll, temp, map.colstate);
temp = map.tower.backat(i, 32, map.bypos);
drawtowertile3(i * 8, 32*8 - (map.bypos % 8) - map.bscroll, temp, map.colstate);
}
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}
}
}
void Graphics::setcol( int t )
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{
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);
int usethisoffset = lerp(oldmenuoffset, menuoffset);
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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, usethisoffset, backBuffer->w ,backBuffer->h);
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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, usethisoffset, backBuffer->w ,backBuffer->h);
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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 )
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{
if (!INBOUNDS(t, tiles))
{
return;
}
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point tpoint;
tpoint.x = x;
tpoint.y = y;
SDL_Rect rect;
setRect(rect,tpoint.x,tpoint.y,tiles_rect.w, tiles_rect.h);
BlitSurfaceColoured(tiles[t],NULL,backBuffer, &rect, ct);
}
void Graphics::huetilesetcol(int t)
{
switch (t)
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{
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;
}
}
Uint32 Graphics::bigchunkygetcol(int t)
{
//A seperate index of colours, for simplicity
switch (t)
{
case 1:
return getRGB((fRandom() * 64), 10, 10);
case 2:
return getRGB(int(160- help.glow/2 - (fRandom()*20)), 200- help.glow/2, 220 - help.glow);
}
return 0x00000000;
}
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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::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()
{
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);
SDL_Rect shakeRect;
setRect(shakeRect,screenshake_x, screenshake_y, backBuffer->w, backBuffer->h);
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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);
SDL_Rect shakeRect;
setRect(shakeRect,screenshake_x, screenshake_y, backBuffer->w, backBuffer->h);
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screenbuffer->UpdateScreen( backBuffer, &shakeRect);
}
FillRect(backBuffer, 0x000000 );
}
void Graphics::updatescreenshake()
{
screenshake_x = static_cast<Sint32>((fRandom() * 7) - 4);
screenshake_y = static_cast<Sint32>((fRandom() * 7) - 4);
}
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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();
}
}
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void Graphics::bigrprint(int x, int y, std::string& t, int r, int g, int b, bool cen, float sc)
{
std::vector<SDL_Surface*>& font = flipmode ? flipbfont : bfont;
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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));
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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;
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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;
int idx;
std::string::iterator iter = t.begin();
while (iter != t.end()) {
cur = utf8::unchecked::next(iter);
idx = font_idx(cur);
if (INBOUNDS(idx, font))
{
SDL_Surface* tempPrint = ScaleSurfaceSlow(font[idx], font[idx]->w *sc,font[idx]->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;
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}
}
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
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void Graphics::drawtele(int x, int y, int t, Uint32 c)
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{
setcolreal(getRGB(16,16,16));
SDL_Rect telerect;
setRect(telerect, x , y, tele_rect.w, tele_rect.h );
if (INBOUNDS(0, tele))
{
BlitSurfaceColoured(tele[0], NULL, backBuffer, &telerect, ct);
}
2020-01-01 21:29:24 +01:00
Fix, for in-GAMEMODE sprites, their colors updating too fast Okay, so the problem here is that Graphics::setcol() is called right before a sprite is drawn in a render function, but render functions are done in deltatime, meaning that the color of a sprite keeps being recalculated every time. This only affects sprites that use fRandom() (the other thing that can dynamically determine a color is help.glow, but that's only updated in the fixed-timestep loop), but is especially noticeable for sprites that flash wildly, like the teleporter, trinket, and elephant. To fix this, we need to make the color be recalculated only in the fixed-timestep loop. However, this means that we MUST store the color of the sprite SOMEWHERE for the delta-timesteps to render it, otherwise the color calculation will just be lost or something. So each entity now has a new attribute, `realcol`, which is the actual raw color used to render the sprite in render functions. This is not to be confused with their `colour` attribute, which is more akin to a color "ID" of sorts, but which isn't an actual color. At the end of gamelogic(), as well as when an entity is first created, the `colour` is given to Graphics::setcol() and then `realcol` gets set to the actual color. Then when it comes time to render the entity, `realcol` gets used instead. Gravitron squares are a somewhat tricky case where there's technically TWO colors for it - one is the actual sprite itself and the other is the indicator. However, usually the indicator and the square aren't both onscreen at the same time, so we can simply switch the realcol between the two as needed. However, we can't use this system for the sprite colors used on the title and map screen, so we'll have to do something else for those.
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setcolreal(c);
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if (t > 9) t = 8;
if (t < 0) t = 0;
setRect(telerect, x , y, tele_rect.w, tele_rect.h );
if (INBOUNDS(t, tele))
{
BlitSurfaceColoured(tele[t], NULL, backBuffer, &telerect, ct);
}
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}
Uint32 Graphics::getRGBA(Uint8 r, Uint8 g, Uint8 b, Uint8 a)
{
return SDL_MapRGBA(backBuffer->format, b, g, r, a);
}
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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 );
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}
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 );
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}
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 );
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}
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);
}
void Graphics::reloadresources() {
grphx.destroy();
grphx = GraphicsResources();
grphx.init();
#define CLEAR_ARRAY(name) \
for (size_t i = 0; i < name.size(); i += 1) \
{ \
SDL_FreeSurface(name[i]); \
} \
name.clear();
CLEAR_ARRAY(tiles)
CLEAR_ARRAY(tiles2)
CLEAR_ARRAY(tiles3)
CLEAR_ARRAY(entcolours)
CLEAR_ARRAY(sprites)
CLEAR_ARRAY(flipsprites)
CLEAR_ARRAY(tele)
CLEAR_ARRAY(bfont)
CLEAR_ARRAY(flipbfont)
#undef CLEAR_ARRAY
MakeTileArray();
MakeSpriteArray();
maketelearray();
Makebfont();
images.clear();
images.push_back(grphx.im_image0);
images.push_back(grphx.im_image1);
images.push_back(grphx.im_image2);
images.push_back(grphx.im_image3);
images.push_back(grphx.im_image4);
images.push_back(grphx.im_image5);
images.push_back(grphx.im_image6);
images.push_back(grphx.im_image7);
images.push_back(grphx.im_image8);
images.push_back(grphx.im_image9);
images.push_back(grphx.im_image10);
images.push_back(grphx.im_image11);
images.push_back(grphx.im_image12);
music.init();
}
Uint32 Graphics::crewcolourreal(int t)
{
switch (t)
{
case 0:
return col_crewcyan;
case 1:
return col_crewpurple;
case 2:
return col_crewyellow;
case 3:
return col_crewred;
case 4:
return col_crewgreen;
case 5:
return col_crewblue;
}
return col_crewcyan;
}
void Graphics::processVsync()
{
SDL_SetHintWithPriority(SDL_HINT_RENDER_VSYNC, vsync ? "1" : "0", SDL_HINT_OVERRIDE);
// FIXME: Sigh... work around SDL2 bug where the VSync hint is only listened to at renderer creation
SDL_DestroyRenderer(screenbuffer->m_renderer);
screenbuffer->m_renderer = SDL_CreateRenderer(screenbuffer->m_window, -1, 0);
// Ugh, have to re-create m_screenTexture as well, otherwise the screen will be black...
SDL_DestroyTexture(screenbuffer->m_screenTexture);
// FIXME: This is duplicated from Screen::init()!
screenbuffer->m_screenTexture = SDL_CreateTexture(
screenbuffer->m_renderer,
SDL_PIXELFORMAT_ARGB8888,
SDL_TEXTUREACCESS_STREAMING,
320,
240
);
// Ugh, have to make sure to re-apply graphics options after doing the above, otherwise letterbox/integer won't be applied...
screenbuffer->ResizeScreen(-1, -1);
}