I am supposed to implement a gesture-based menu in which you scroll through a horizontal list of items by panning or flinging through them. This kind of menus is very common in smart phone games. Example case would be Cut the Rope where you select box (Cardboard box, Fabric box) or Angry Birds where you select the set of levels (Poached Eggs, Mighty Hoax).
What I am thinking is that I'll have to do some complex physics calculations and give velocities and accelerations to menu items based on the gestures. Any better solutions? I am using libgdx btw.
I don't think you'd need to go through all that to implement a simple menu! It's all about defining offsets for various items (I'll just assume you want Cut the Rope-style menus, with only one entry in sight at a given moment (excluding transitions)) and then tweening between those offsets whenever a flick is detected!
You seem to have the gesture system all wired up, so right now, we just need to figure out how to display the menu. For simplicity's sake, we'll just assume that we don't want the menu to wrap around.
We'll start by envisioning what this menu will look like, in our heads. It would be just like a filmstrip which passes through the phone and can be seen through the screen.
phone ("stuff" is currently selected)
========
|---------------| |-------|
| Start | About | Stuff | Quit |
|---------------| |-------|
| |
| |
| |
========
We'll just assume that the screen width is w and, consequently, all menu entries are exactly that width (think Cut the Rope again!).
Now, when "Start", is to be displayed, we should just render the flimstrip on the screen starting with the first element, "Start", while the rest would, theoretically, lie to the right of the screen. This will be considered the basic case, rendering the menu with the offset = 0.
Yes, yes, this offset will be the key to our little slidey-slidey menu! Now, it's pretty obvious that when about is selected, we'll just have to offset the "filmstrip" to the left by one "frame", and here offset = - 1 * frameWidth. Our example case illustrated by my brilliant ASCII art has the third menu item selected, and since the frames are indexed starting from 0, we'll just subtract two times the frameWidth and get the desired offset. We'll just render the menu starting at offset = -2 * frameWidth.
(Obviously you can just compute frameWidth in advance, by using the API to fetch the screen width, and then just drawing the menu element text/ graphic centered).
So this is pretty simple:
the user sweeps to the left, we need to get to the menu closer to offset 0, we reduce the index of the selected entity by one and the menu then jumps to the right position
the user sweeps to the right, we increase the index (obviously as long as it doesn't go over the number of menu elements - 1)
But what about smooth tweens?
Libgdx thankfully has interpolations all set for nice little tweens. We just need to take care of a few things so we don't shoot ourselves in the leg. I'll list them here.
One quick note:
The Cut the Rope level selector works a tad differently than what I'm saying here. It doesn't just react to flicks (pre-defined gestures), rather it's more sensitive. You can probably achieve a similar effect by playing with offsets and tracking the position of the finger on the screen. (If the user dragged a menu entry too much to the left/right, transition to the previous/next automatically) Friendly advice: just set up a simple, working menu, and leave details like this towards the end, since they can end up taking a lot of time! :P
Alright, back on track!
What we have now is a way to quickly switch between offsets. We just need to tween. There are some additional members that come into play, but I think they're pretty self-explanatory. While we're transitioning between two elements, we remember the "old" offset, and the one we're heading towards, as well as remembering the time we have left from the transition, and we use these four variables to compute the offset (using a libgdx interpolation, exp10 in this case) at the current moment, resulting in a smooth animation.
Let's see, I've created a quick'n'dirty mock-up. I've commented the code as best as I could, so I hope the following snippet speaks for itself! :D
import java.util.ArrayList;
import com.badlogic.gdx.graphics.g2d.BitmapFont;
import com.badlogic.gdx.graphics.g2d.SpriteBatch;
import com.badlogic.gdx.math.Interpolation;
public class MenuManager {
// The list of the entries being iterated over
private ArrayList<MenuEntry> entries = new ArrayList<>();
// The current selected thingy
private int index;
// The menu offset
private float offset = 0.0f;
// Offset of the old menu position, before it started tweening to the new one
private float oldOffset = 0.0f;
// What we're tweening towards
private float targetOffset = 0.0f;
// Hardcoded, I know, you can set this in a smarter fashion to suit your
// needs - it's basically as wide as the screen in my case
private float entryWidth = 400.0f;
// Whether we've finished tweening
private boolean finished = true;
// How much time a single transition should take
private float transitionTimeTotal = 0.33f;
// How much time we have left from the current transition
private float transitionTimeLeft = 0.0f;
// libgdx helper to nicely interpolate between the current and the next
// positions
private Interpolation interpolation = Interpolation.exp10;
public void addEntry(MenuEntry entry) {
entries.add(entry);
}
// Called to initiate transition to the next element in the menu
public void selectNext() {
// Don't do anything if we're still animationg
if(!finished) return;
if(index < entries.size() - 1) {
index++;
// We need to head towards the next "frame" of the "filmstrip"
targetOffset = oldOffset + entryWidth;
finished = false;
transitionTimeLeft = transitionTimeTotal;
} else {
// (does nothing now, menu doesn't wrap around)
System.out.println("Cannot go to menu entry > entries.size()!");
}
}
// see selectNext()
public void selectPrevious() {
if(!finished) return;
if(index > 0) {
index --;
targetOffset = oldOffset - entryWidth;
finished = false;
transitionTimeLeft = transitionTimeTotal;
} else {
System.out.println("Cannot go to menu entry <0!");
}
}
// Called when the user selects someting (taps the menu, presses a button, whatever)
public void selectCurrent() {
if(!finished) {
System.out.println("Still moving, hold yer pants!");
} else {
entries.get(index).select();
}
}
public void update(float delta) {
if(transitionTimeLeft > 0.0f) {
// if we're still transitioning
transitionTimeLeft -= delta;
offset = interpolation.apply(oldOffset, targetOffset, 1 - transitionTimeLeft / transitionTimeTotal);
} else {
// Transition is over but we haven't handled it yet
if(!finished) {
transitionTimeLeft = 0.0f;
finished = true;
oldOffset = targetOffset;
}
}
}
// Todo make font belong to menu
public void draw(SpriteBatch spriteBatch, BitmapFont font) {
if(!finished) {
// We're animating, just iterate through everything and draw it,
// it's not like we're wasting *too* much CPU power
for(int i = 0; i < entries.size(); i++) {
entries.get(i).draw((int)(i * entryWidth - offset), 100, spriteBatch, font);
}
} else {
// We're not animating, just draw the active thingy
entries.get(index).draw(0, 100, spriteBatch, font);
}
}
}
And I believe a simple text-based menu entry that can draw itself would suffice! (do mind the dirty hard-coded text-wrap width!)
public class MenuEntry {
private String label;
// private RenderNode2D graphic;
private Action action;
public MenuEntry(String label, Action action) {
this.label = label;
this.action = action;
}
public void select() {
this.action.execute();
}
public void draw(int x, int y, SpriteBatch spriteBatch, BitmapFont font) {
font.drawMultiLine(spriteBatch, label, x, y, 400, HAlignment.CENTER);
}
}
Oh, and Action is just a thingy that has an execute method and, well, represents an action.
public interface Action {
abstract void execute();
}
Feel free to ask any related question in the comments, and I'll try to clarify what's needed.
Hope this helps!
Related
I was trying to print rectangle in Codenameone.
fun showCustomForm() {
val hi = Form("", BorderLayout())
hi.add(BorderLayout.CENTER, getGreenLine())
hi.show()
}
fun getGreenLine(): Component {
return object : Component() {
override fun paint(g: Graphics) {
println("Graphics Printing starts")
g.color = 0x00ff00
g.fillRect(x, y, width, height)
}
override fun calcPreferredSize(): Dimension {
return Dimension(1, 20)
}
}
}
As showing above, the rectangle is supposed to have a width of 1 and height of 20
The height seems to be correct but the width goes across the screen.
What is the right way to display the rectangle with the correct dimension?
I've never used Kotlin, however... in this example, try to replace BorderLayout() with BorderLayout(BorderLayout.CENTER_BEHAVIOR_CENTER) to give to the component its preferred size.
In general, the layout managers can or cannot use the preferred size, see: https://www.codenameone.com/manual/basics.html
For example, FlowLayout always gives a component its preferred size; BoxLayout.y() always gives a component its preferred height, but using the maximum available width; etc.
Ok I am using Unity C# (MonoDevelop) and I am learning how to pull component variables from other components. Now I understand how to do that, but I am wondering why when I start the game and press the "F" key it prints "Hello I am a cube" and subtracts 1 from CubeTalkPoints at least 3-5 times. I want it to run the code once per key press.
void Update () {
if(Input.GetKey(KeyCode.F))
C_Talk(0);
}
void C_Talk(int SpellID = 0, int TalkPoint = 1)
{
CubeData CubeSub = GetComponent<CubeData>();
if (CubeSub.CubeTalkPoints >= TalkPoint)
{
CubeSub.CubeTalkPoints -= TalkPoint;
Debug.Log("Hello I am a Cube!");
}
}
Use GetKeyDown() instead of GetKey(). GetKeyDown() will only be true the first frame the button is down. GetKey() will be true every frame as long as the button is held down.
I am new to unity3d and I want to build a helix shape road for my game
How can I create a downward helix road ?is there any tutorial for it?
please clarify the steps to create road in general in unity3d if you can?
I would create a single 360° part of that road HelixPart in Blender or whatever your favourite modelling tool is. Then import it into Unity.
Create an empty GameObject and attach a let's call it HelixRoadCreator Component:
public class HelixRoadCreator : MonoBehaviour {
public int noOfParts = 5;
public GameObject helixPartPrefab;
void Start ()
Vector3 newPosition = transform.position;
for (int i = 1; i <= noOfParts; i++) {
GameObject part = Instantiate (helixPartPrefab, newPosition, transform.rotation) as GameObject;
part.tranform.parent = this.gameObject.transform;
// recalculate newPosition, something like: newPosition += i* heightOfPart
}
}
}
Now drag your imported HelixPart on helixPartPrefab in HelixRoadCreator and adjust noOfParts to the number you want. Fiddle around to find out the right height calculation parameters et voilá.
As you see in the picture above, billy, our little orange dressed man, is going off the screen to the left and appearing on the right side.
This is what I want to happen, however, I can't seem to replicate this effect (I got the picture with some modifications in Paint.net).
Basically, if the players x position is negative, it should wrap to the other side. If the x is larger than the width, it should wrap over to the left side.
Draw it two times when you need it.
void Draw(SpriteBacth batch)
{
batch.Draw(Player.texture, Player.Position, player.Source, player.Color);
if (Player.X <0)
{
bacth.Draw(Player.texture, Player.Position + ScreenHorizontalSize, player.Source, Player.Color);
}
else if (Player.X + Player.Size.Width> ScreenHorizontalSize.Width)
{
bacth.Draw(Player.texture, Player.Position - ScreenHorizontalSize, player.Source, Player.Color);
}
}
void Update()
{
if (Player.X < -Player.Size.Width) Player.X += ScreenHorizontalSize.Width;
if (Player.X > ScreenHorizontalSize.Width) Player.X -= ScreenHorizontalSize.Width;
}
Of course you have to take in mind this when you check for colliding with player, you will have to check in the two positions too.
I've got a little text drawing puzzle under Win32. I'm trying to draw some instructions for users of my application at the top of the window.
Please refer to the following window (I've changed the background color on the text so you can see the boundaries)
(source: billy-oneal.com)
I'm currently using DrawTextEx to draw the text to my window, but the problem is that it does not fill the entire RECTangle that I give it. Not drawing that area is just fine, until the window resizes:
(source: billy-oneal.com)
When the text is re wrapped due to the window sizing, because DrawTextEx doesn't clear it's background, these artifacts are leftover.
I tried using FillRect to fill in the area behind the text drawing call, which does eliminate the visual artifacts, but then causes the text to flicker constantly, as it is completely erased and then completely redrawn to the display.
Any ideas on how one might get the area not containing text to be drawn with the background color?
EDIT: I'd like to avoid having to double buffer the form if at app possible.
EDIT2: I solved the problem by only redrawing the text when I detect that the wrapping changes during a resize.
Use double buffering?
Draw everything to a bitmap and draw the bitmap to the window. Flickering is commonly a double buffering issue.
There are many possible solutions and without seeing your code, it's hard to tell which method would be best so I'd suggest taking a look at this article on flicker free drawing
SetBkMode + SetBkColor ?
Well since nobody seems to know what to do about it, I implemented it this way:
std::vector<std::wstring> wrapString(HDC hDC, const std::wstring& text, const RECT& targetRect, HFONT font)
{
std::vector<std::wstring> result;
RECT targetRectangle;
CopyRect(&targetRectangle, &targetRect);
//Calculate the width of the bounding rectangle.
int maxWidth = targetRectangle.right - targetRectangle.left;
//Draw the lines one at a time
std::wstring currentLine;
for(std::wstring::const_iterator it = text.begin(); it != text.end(); currentLine.push_back(*it), it++)
{
if(*it == L'\r' || *it == L'\n')
{ //Hard return
while(it != text.end() && (*it == L'\r' || *it == L'\n')) it++;
result.push_back(currentLine);
currentLine.clear();
}
else
{ //Check for soft return
SIZE sizeStruct;
GetTextExtentPoint32(hDC, currentLine.c_str(), static_cast<int>(currentLine.length()), &sizeStruct);
if (sizeStruct.cx > maxWidth)
{
std::wstring::size_type lineLength = currentLine.find_last_of(L' ');
if (lineLength == currentLine.npos)
{ //Word is longer than a line.
for(;it != text.end() && !iswspace(*it);it++) currentLine.push_back(*it);
}
else
{ //Clip word to line.
//Backtrack our scan of the source text.
it -= currentLine.length() - lineLength - 1;
//Remove the clipped word
currentLine.erase(lineLength);
}
result.push_back(currentLine);
currentLine.clear();
}
}
}
//Last remaining text.
result.push_back(currentLine);
return result;
}
void DrawInstructionsWithFilledBackground(HDC hDC, const std::wstring& text, RECT& targetRectangle, HFONT font, COLORREF backgroundColor)
{
//Set up our background color.
int dcIdx = SaveDC(hDC);
HBRUSH backgroundBrush = CreateSolidBrush(backgroundColor);
SelectObject(hDC, backgroundBrush);
SelectObject(hDC, font);
SetBkColor(hDC, backgroundColor);
std::vector<std::wstring> lines(wrapString(hDC, text, targetRectangle, font));
for(std::vector<std::wstring>::const_iterator it = lines.begin(); it!=lines.end(); it++)
{
RECT backgroundRect = targetRectangle;
DrawText(hDC, const_cast<LPWSTR>(it->c_str()), static_cast<int>(it->length()), &backgroundRect, DT_CALCRECT | DT_NOCLIP | DT_SINGLELINE);
backgroundRect.left = backgroundRect.right;
backgroundRect.right = targetRectangle.right;
if (backgroundRect.right >= backgroundRect.left)
FillRect(hDC, &backgroundRect, backgroundBrush);
ExtTextOut(hDC, targetRectangle.left, targetRectangle.top, ETO_OPAQUE, NULL, it->c_str(), static_cast<UINT>(it->length()), NULL);
targetRectangle.top += backgroundRect.bottom - backgroundRect.top;
}
instructionsWrap = lines;
//Restore the DC to it's former glory.
RestoreDC(hDC, dcIdx);
DeleteObject(backgroundBrush);
}
Get/Calculate the rect used by the DrawText call and clip it with something like ExcludeClipRect before calling FillRect