Difference between revisions of "Talk:Coding-tutorial"
m (→Updated HETR.cpp) |
(→can_move suggestion: new section) |
||
Line 111: | Line 111: | ||
Element_HETR::~Element_HETR() {} | Element_HETR::~Element_HETR() {} | ||
+ | |||
+ | == can_move suggestion == | ||
+ | |||
+ | https://tpt.io/.306850 |
Revision as of 07:03, 25 December 2018
im pretty sure im gonna feel stupid after someone tells me this. but where do you find powder.h?
-it's in the folder "includes" -firefreak11
I made my element and everything, but how do you load it on the game?
-Press F5 in Visual Studio with the project loaded.
Enter a short summary [b]
i keep getting a "too many initializers" error when i try to build my mod and for some reason it keeps showing the same line number 822 for every element
I will update this page some day ... but for now the recent updates were wrong. You need to run generator.py, it does the PT_ stuff for you. 05:11, 16 January 2013 (UTC) --jacob1
I updated the site to read Currently, the largest element ID is LSNS, 185. Your element should have an ID of 186. instead of it being DRAY 178 and having your element be 179 as that caused id errors becuase of the new added elements.
--Kirbystarfighter
Broken link?
https://dl.dropboxusercontent.com/u/43784416/PowderToy/HETR.cpp is broken link
Updated HETR.cpp
#include "simulation/Elements.h" //#TPT-Directive ElementClass Element_HETR PT_HETR 187 //You must change this line, replace HETR with your element's name and 187 with the first available id in generated/ElementClasses.h Element_HETR::Element_HETR() //Replace all the HETR's below too { Identifier = "DEFAULT_PT_HETR"; //Identifier, used for lua and internal stuff, change HETR to your element's name Name = "HETR"; //Name, it is recommended to use 4 letters, but less works. 5 or more will probably not fit on the buttons Colour = PIXPACK(0xFFBB00); //Default color MenuVisible = 1; //If it's visible in the menu, if 0 then it is hidden and can only be produced with reactions or lua MenuSection = SC_SPECIAL; //The menu section it's in, see src/simulation/SimulationData.h for a list, but you can probably guess their names on your own Enabled = 1; //If 0, it cannot be created or seen in any way, not even lua. It will just disappear if somehow created. Used for removed elements, you should leave this 1 Advection = 0.0f; //How much the particle is accelerated by moving air. Normally 0 for solids, and up to 1 for other elements. It can be negative, ANAR and DEST do this so it goes towards pressure AirDrag = 0.00f * CFDS; //How much air the particle generates in the direction of travel. Generally is very small, 0.04f creates a lot of positive air (- creates negative pressure). AirLoss = 0.90f; //How much the particle slows down moving air (although not as big an effect as a wall). 1 = no effect, 0 = maximum effect. Solids are generally above 0.90f, along with most other elements too Loss = 0.00f; //How much velocity the particle loses each frame. 1 = no loss, .5 = half loss. Solids have it at 0. Only a few have it at 1, like energy particles, and old moving sponge. Collision = 0.0f; //Velocity is multiplied by this when the particle collides with something. Energy particles have it at -0.99f, everything else is -0.01f or 0.0f. This property does not do much at all. Gravity = 0.0f; //How fast the particle falls. A negative number means it floats. Generally very small, most gasses are negative, everything else is usually less than 0.04f Diffusion = 0.00f; //How much the particle "wiggles" around (think GAS or HYGN). Set at 0, except for gasses, which is a positive number. Up to 3 (or higher) for a large amount of wiggle, GAS is 0.75f, HYGN is 3.00f HotAir = 0.000f * CFDS; //How much the particle increases the pressure by. Another property only for gasses, but VENT/VACU have theirs at (-)0.010f. An extremely small number, sometimes as small as 0.000001f Falldown = 0; //How does the particle move? 0 = solid, gas, or energy particle, 1 = powder, 2 = liquid. Flammable = 0; //Does it burn? 0 = no, higher numbers = higher "burnage". Something like 20 is WOOD, while C-4 is 1000. Some are a few thousand for almost instant burning. Explosive = 0; //Does it explode? 0 = no, 1 = when touching fire, 2 = when touching fire or when pressure > 2.5. Yes, those are the only options, see FIRE.cpp or somewhere in Simulation.cpp to modify how they work Meltable = 0; //Does it melt? 1 or higher = yes, 0 = no. This is actually only used in legacy mode, not paying attention to this property once caused a bug where many solids that don't melt would without heat sim on. Hardness = 0; //How much does acid affect it? 0 = no effect, higher numbers = higher effect. Generally goes up to about 50. Weight = 100; //Heavier elements sink beneath lighter ones. 1 = Gas. 2 = Light, 98 = Heavy (liquids 0-49, powder 50-99). 100 = Solid. -1 is Neutrons and Photons. Temperature = R_TEMP+273.15f; //What temperature does it have when created? Temperature is in Kelvin (Kelvin = degrees C + 273.15). R_TEMP+273.15f gives room temperature. HeatConduct = 251; //0 - no heat transfer, 255 - maximum heat transfer speed. Description = "Heats objects it touches"; //A short one sentence description of the element, shown when you mouse over it in-game. Properties = TYPE_SOLID; //Does this element have special properties? Properties are listed in src/simulation/Element.h, you at least need to have the correct state property. If you want it to conduct electricity, be sure to use both PROP_CONDUCTS and PROP_LIFE_DEC LowPressure = IPL; LowPressureTransition = NT; HighPressure = IPH; HighPressureTransition = NT; LowTemperature = ITL; LowTemperatureTransition = NT; HighTemperature = ITH; HighTemperatureTransition = NT; Update = &Element_HETR::update; Graphics = &Element_HETR::graphics; } //#TPT-Directive ElementHeader Element_HETR static int update(UPDATE_FUNC_ARGS) int Element_HETR::update(UPDATE_FUNC_ARGS) { int r, rx, ry; for (rx = -1; rx < 2; rx++) for (ry = -1; ry < 2; ry++) if (BOUNDS_CHECK) { r = pmap[y+ry][x+rx]; if (!r || TYP(r) == PT_HETR) r = sim->photons[y+ry][x+rx]; if (!r) continue; if (parts[ID(r)].temp + (parts[ID(r)].temp*0.2f) <= MAX_TEMP) { parts[ID(r)].temp += parts[ID(r)].temp*0.2f; } else { parts[ID(r)].temp = MAX_TEMP; } } return 0; } //#TPT-Directive ElementHeader Element_HETR static int graphics(GRAPHICS_FUNC_ARGS) int Element_HETR::graphics(GRAPHICS_FUNC_ARGS) { return 1; } Element_HETR::~Element_HETR() {}