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I got tired of reinventing the wheel for explosions so I made a handy drawing tool. Just give it the x, y location, the diameter = spread to cover and red, green, blue colors to use. It will calculate the number of dots, frames and speeds needed for decent explosion and set that up with DrawDots sub.
This is my test code for developing Explode:
Code: (Select All) Option _Explicit
_Title "Explosions test" 'b+ revisit 2023-02-08
Const xmax = 800, ymax = 600
Screen _NewImage(xmax, ymax, 32)
_ScreenMove (1280 - xmax) / 2 + 30, (760 - ymax) / 2
Randomize Timer
Type particle ' ===================================== Explosions Setup
As Long life, death
As Single x, y, dx, dy, r
As _Unsigned Long c
End Type
Dim Shared nDots
nDots = 2000
ReDim Shared dots(nDots) As particle ' ==============================
Dim As Long mx, my, mb
Do
Cls
While _MouseInput: Wend
mx = _MouseX: my = _MouseY: mb = _MouseButton(1)
Circle (mx, my), 5
If mb Then
' explode sets up dots and runs them out over several loops
Explode mx, my, 100, 0, 120, 40
Circle (mx, my), 100
_Display
_Delay .2 ' alittle delay for user to release mousebutton
End If
DrawDots
_Display
_Limit 30 ' or 60
Loop
Print "done"
' explode sets up old dead particles for display for a life
' This sub sets up Dots to display with DrawDots
' this sub uses rndCW
Sub Explode (x, y, spread, cr, cg, cb)
' x, y explosion origin
' spread is diameter of area to cover from it number of dots, number of frames and speed are calculated
' setup for explosions in main
'Type particle
' As Long life, death
' As Single x, y, dx, dy, r
' As _Unsigned Long c
'End Type
'Dim Shared nDots
'nDots = 2000
'ReDim Shared dots(nDots) As particle
Dim As Long i, dotCount, newDots
Dim angle, speed, rd, rAve, frames
newDots = spread / 2 ' quota
frames = spread / 5
speed = spread / frames ' 0 to spread in frames
rAve = .5 * spread / Sqr(newDots)
For i = 1 To nDots ' find next available dot
If dots(i).life = 0 Then
dots(i).life = 1 ' turn on display
dots(i).death = frames
angle = _Pi(2 * Rnd)
dots(i).x = x: dots(i).y = y ' origin
rd = Rnd
dots(i).dx = rd * speed * Cos(angle) ' moving
dots(i).dy = rd * speed * Sin(angle)
dots(i).r = RndCW(rAve, rAve) ' radius
dots(i).c = _RGB32(cr + Rnd * 40 - 20, cg + Rnd * 40 - 20, cb + Rnd * 40 - 20) 'color
dotCount = dotCount + 1
If dotCount >= newDots Then Exit Sub
End If
Next
End Sub
Sub DrawDots ' this sub needs fcirc to Fill Circles and Sub Explode sets up the Dots to draw.
' setup in main for explosions
'Type particle
' As Long life, death
' As Single x, y, dx, dy, r
' As _Unsigned Long c
'End Type
'Dim Shared nDots
'nDots = 2000
'ReDim Shared dots(nDots) As particle
Dim As Long i
For i = 1 To nDots ' display of living particles
If dots(i).life Then
FCirc dots(i).x, dots(i).y, dots(i).r, dots(i).c
' update dot
If dots(i).life + 1 >= dots(i).death Then
dots(i).life = 0
Else
dots(i).life = dots(i).life + 1
' might want air resistence or gravity added to dx or dy
dots(i).x = dots(i).x + dots(i).dx
dots(i).y = dots(i).y + dots(i).dy
If dots(i).x < 0 Or dots(i).x > xmax Then dots(i).life = 0
If dots(i).y < 0 Or dots(i).y > ymax Then dots(i).life = 0
dots(i).r = dots(i).r * 1 - (dots(i).life / dots(i).death) ' puff!
If dots(i).r <= 0 Then dots(i).life = 0
End If
End If
Next
End Sub
'from Steve Gold standard
Sub FCirc (CX As Integer, CY As Integer, R As Integer, C As _Unsigned Long)
Dim Radius As Integer, RadiusError As Integer
Dim X As Integer, Y As Integer
Radius = Abs(R): RadiusError = -Radius: X = Radius: Y = 0
If Radius = 0 Then PSet (CX, CY), C: Exit Sub
Line (CX - X, CY)-(CX + X, CY), C, BF
While X > Y
RadiusError = RadiusError + Y * 2 + 1
If RadiusError >= 0 Then
If X <> Y + 1 Then
Line (CX - Y, CY - X)-(CX + Y, CY - X), C, BF
Line (CX - Y, CY + X)-(CX + Y, CY + X), C, BF
End If
X = X - 1
RadiusError = RadiusError - X * 2
End If
Y = Y + 1
Line (CX - X, CY - Y)-(CX + X, CY - Y), C, BF
Line (CX - X, CY + Y)-(CX + X, CY + Y), C, BF
Wend
End Sub
Function RndCW (C As Single, range As Single) 'center +/-range weights to center
RndCW = C + Rnd * range - Rnd * range
End Function
b = b + ...
Posts: 3,551
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02-09-2023, 04:30 AM
(This post was last modified: 02-10-2023, 02:09 AM by bplus.)
To see how easy Explosions is to install, I tested installing into a spiders collision demo:
Code: (Select All) Option _Explicit
_Title "Spiders with Box and Pixel Collisions Experiment 3" 'b+ 2023-01-30/31
' 2023-02-08 Another experiment in handling Spider collisions,
' At collision, explosion!
' Tweaked number of spiders, speeds, colors and sizes and sound if collide
' !!!!!!!!!!!!!!!!!!! Escape to Quit !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
' !!! Speaker volume around 20 maybe! !!!
Randomize Timer
Dim Shared xmax As Integer, ymax As Integer
xmax = _DesktopWidth
ymax = _DesktopHeight
Const nSpinners = 40
Type SpinnerType
As Single x, y, dx, dy, sz
c As _Unsigned Long
End Type
Dim Shared s(1 To nSpinners) As SpinnerType
Type boxType ' for PixelCollison&
As Long img, x, y, w, h
c As _Unsigned Long
End Type
Type particle 'setup for explosions =======================================
As Long life, death
As Single x, y, dx, dy, r
As _Unsigned Long c
End Type
Dim Shared nDots
nDots = 2000
ReDim Shared dots(nDots) As particle '=====================================
Dim As Long i, j, iImg, jImg, lc, i2, sc, intx, inty
Dim As boxType sIo, sJo
sc = _ScreenImage
Screen _NewImage(xmax, ymax, 32)
'_ScreenMove 0, 0
_FullScreen
For i = 1 To nSpinners
newSpinner i
Next
i2 = 1
While InKey$ <> Chr$(27)
'_Title Str$(i2) + " spiders" ' when testing spider speeds
_PutImage , sc, 0
lc = lc + 1
If lc Mod 50 = 49 Then
lc = 0
If i2 < nSpinners Then i2 = i2 + 1
End If
For i = 1 To i2
'ready for collision check
' max sz = .75 which needs 140 x 140 image square +++++++++++++++++++++++++
iImg = _NewImage(140, 140, 32)
_Dest iImg
drawSpinner iImg, 70, 70, s(i).sz, _Atan2(s(i).dy, s(i).dx), s(i).c
_Dest 0
sIo.x = s(i).x - 70
sIo.y = s(i).y - 70
sIo.w = 140
sIo.h = 140 ' this meets requirements for collision obj1
sIo.img = iImg ' ++++++++++++++++++++++++++++++++++++++++++++++++++++++++
For j = i + 1 To i2
' max sz = .75 which needs 140 x 140 image square +++++++++++++++++++++
jImg = _NewImage(140, 140, 32)
_Dest jImg
drawSpinner jImg, 70, 70, s(j).sz, _Atan2(s(j).dy, s(j).dx), s(j).c
_Dest 0
sJo.x = s(j).x - 70
sJo.y = s(j).y - 70
sJo.w = 140
sJo.h = 140 ' this meets requirements for collision obj1
sJo.img = jImg
If PixelCollision&(sIo, sJo, intx, inty) Then '+++++++++++++++++++++++++++++++++++++++
Sound Rnd * 7000 + 400, .05
explode s(i).x, s(i).y, 150 * s(i).sz, 200, 200, 200
newSpinner i
's(i).x = s(i).x + s(i).dx + rndCW(0, 3.5)
's(i).y = s(i).y + s(i).dy + rndCW(0, 3.5)
's(j).x = s(j).x + s(j).dx + rndCW(0, 3.5)
's(j).y = s(j).y + s(j).dy + rndCW(0, 3.5)
Exit For
End If
_FreeImage jImg
Next
s(i).x = s(i).x + s(i).dx + rndCW(0, 3.5)
s(i).y = s(i).y + s(i).dy + rndCW(0, 3.5)
If s(i).x < -100 Or s(i).x > xmax + 100 Or s(i).y < -100 Or s(i).y > ymax + 100 Then newSpinner i
_PutImage (s(i).x - 70, s(i).y - 70), iImg, 0
_FreeImage iImg
Next
drawDots
_Display
_Limit 30
Wend
Sub newSpinner (i As Integer) 'set Spinners dimensions start angles, color?
Dim r
s(i).sz = rndCW(.5, .25) ' * .55 + .2
If Rnd < .5 Then r = -1 Else r = 1
s(i).dx = (s(i).sz * Rnd * 8 + 1) * r * 2: s(i).dy = (s(i).sz * Rnd * 8 + 1) * r * 2
r = Int(Rnd * 4)
Select Case r
Case 0: s(i).x = Rnd * (xmax - 120) + 60: s(i).y = 0: If s(i).dy < 0 Then s(i).dy = -s(i).dy
Case 1: s(i).x = Rnd * (xmax - 120) + 60: s(i).y = ymax: If s(i).dy > 0 Then s(i).dy = -s(i).dy
Case 2: s(i).x = 0: s(i).y = Rnd * (ymax - 120) + 60: If s(i).dx < 0 Then s(i).dx = -s(i).dx
Case 3: s(i).x = xmax: s(i).y = Rnd * (ymax - 120) + 60: If s(i).dx > 0 Then s(i).dx = -s(i).dx
End Select
r = Rnd * 80 + 40
s(i).c = _RGB32(r, 20 + rndCW(.5 * r, 15), 10 + rndCW(.25 * r, 10))
End Sub
Sub drawSpinner (idest&, x As Integer, y As Integer, scale As Single, heading As Single, c As _Unsigned Long)
Dim x1, x2, x3, x4, y1, y2, y3, y4, r, a, a1, a2, lg, d, rd, red, blue, green
Static switch As Integer
switch = switch + 2
switch = switch Mod 16 + 1
red = _Red32(c): green = _Green32(c): blue = _Blue32(c)
r = 10 * scale
x1 = x + r * Cos(heading): y1 = y + r * Sin(heading)
r = 2 * r 'lg lengths
For lg = 1 To 8
If lg < 5 Then
a = heading + .9 * lg * _Pi(1 / 5) + (lg = switch) * _Pi(1 / 10)
Else
a = heading - .9 * (lg - 4) * _Pi(1 / 5) - (lg = switch) * _Pi(1 / 10)
End If
x2 = x1 + r * Cos(a): y2 = y1 + r * Sin(a)
drawLink idest&, x1, y1, 3 * scale, x2, y2, 2 * scale, _RGB32(red + 20, green + 10, blue + 5)
If lg = 1 Or lg = 2 Or lg = 7 Or lg = 8 Then d = -1 Else d = 1
a1 = a + d * _Pi(1 / 12)
x3 = x2 + r * 1.5 * Cos(a1): y3 = y2 + r * 1.5 * Sin(a1)
drawLink idest&, x2, y2, 2 * scale, x3, y3, scale, _RGB32(red + 35, green + 17, blue + 8)
rd = Int(Rnd * 8) + 1
a2 = a1 + d * _Pi(1 / 8) * rd / 8
x4 = x3 + r * 1.5 * Cos(a2): y4 = y3 + r * 1.5 * Sin(a2)
drawLink idest&, x3, y3, scale, x4, y4, scale, _RGB32(red + 50, green + 25, blue + 12)
Next
r = r * .5
fcirc x1, y1, r, _RGB32(red - 20, green - 10, blue - 5)
x2 = x1 + (r + 1) * Cos(heading - _Pi(1 / 12)): y2 = y1 + (r + 1) * Sin(heading - _Pi(1 / 12))
fcirc x2, y2, r * .2, &HFF000000
x2 = x1 + (r + 1) * Cos(heading + _Pi(1 / 12)): y2 = y1 + (r + 1) * Sin(heading + _Pi(1 / 12))
fcirc x2, y2, r * .2, &HFF000000
r = r * 2
x1 = x + r * .9 * Cos(heading + _Pi): y1 = y + r * .9 * Sin(heading + _Pi)
TiltedEllipseFill idest&, x1, y1, r, .7 * r, heading + _Pi, _RGB32(red, green, blue)
End Sub
Sub drawLink (idest&, x1, y1, r1, x2, y2, r2, c As _Unsigned Long)
Dim a, a1, a2, x3, x4, x5, x6, y3, y4, y5, y6
a = _Atan2(y2 - y1, x2 - x1)
a1 = a + _Pi(1 / 2)
a2 = a - _Pi(1 / 2)
x3 = x1 + r1 * Cos(a1): y3 = y1 + r1 * Sin(a1)
x4 = x1 + r1 * Cos(a2): y4 = y1 + r1 * Sin(a2)
x5 = x2 + r2 * Cos(a1): y5 = y2 + r2 * Sin(a1)
x6 = x2 + r2 * Cos(a2): y6 = y2 + r2 * Sin(a2)
fquad idest&, x3, y3, x4, y4, x5, y5, x6, y6, c
fcirc x1, y1, r1, c
fcirc x2, y2, r2, c
End Sub
'need 4 non linear points (not all on 1 line) list them clockwise so x2, y2 is opposite of x4, y4
Sub fquad (idest&, x1 As Integer, y1 As Integer, x2 As Integer, y2 As Integer, x3 As Integer, y3 As Integer, x4 As Integer, y4 As Integer, c As _Unsigned Long)
ftri idest&, x1, y1, x2, y2, x4, y4, c
ftri idest&, x3, y3, x4, y4, x1, y1, c
End Sub
Sub ftri (idest&, x1, y1, x2, y2, x3, y3, K As _Unsigned Long)
Dim a&
a& = _NewImage(1, 1, 32)
_Dest a&
PSet (0, 0), K
_Dest idest&
_MapTriangle _Seamless(0, 0)-(0, 0)-(0, 0), a& To(x1, y1)-(x2, y2)-(x3, y3)
_FreeImage a& '<<< this is important!
End Sub
Sub fcirc (CX As Integer, CY As Integer, R As Integer, C As _Unsigned Long)
Dim Radius As Integer, RadiusError As Integer
Dim X As Integer, Y As Integer
Radius = Abs(R): RadiusError = -Radius: X = Radius: Y = 0
If Radius = 0 Then PSet (CX, CY), C: Exit Sub
Line (CX - X, CY)-(CX + X, CY), C, BF
While X > Y
RadiusError = RadiusError + Y * 2 + 1
If RadiusError >= 0 Then
If X <> Y + 1 Then
Line (CX - Y, CY - X)-(CX + Y, CY - X), C, BF
Line (CX - Y, CY + X)-(CX + Y, CY + X), C, BF
End If
X = X - 1
RadiusError = RadiusError - X * 2
End If
Y = Y + 1
Line (CX - X, CY - Y)-(CX + X, CY - Y), C, BF
Line (CX - X, CY + Y)-(CX + X, CY + Y), C, BF
Wend
End Sub
Sub TiltedEllipseFill (destHandle&, x0, y0, a, b, ang, c As _Unsigned Long)
Dim TEmax As Integer, mx2 As Integer, i As Integer, j As Integer, k As Single, lasti As Single, lastj As Single
Dim prc As _Unsigned Long, tef As Long
prc = _RGB32(255, 255, 255, 255)
If a > b Then TEmax = a + 1 Else TEmax = b + 1
mx2 = TEmax + TEmax
tef = _NewImage(mx2, mx2)
_Dest tef
_Source tef 'point wont read without this!
For k = 0 To 6.2832 + .05 Step .1
i = TEmax + a * Cos(k) * Cos(ang) + b * Sin(k) * Sin(ang)
j = TEmax + a * Cos(k) * Sin(ang) - b * Sin(k) * Cos(ang)
If k <> 0 Then
Line (lasti, lastj)-(i, j), prc
Else
PSet (i, j), prc
End If
lasti = i: lastj = j
Next
Dim xleft(mx2) As Integer, xright(mx2) As Integer, x As Integer, y As Integer
For y = 0 To mx2
x = 0
While Point(x, y) <> prc And x < mx2
x = x + 1
Wend
xleft(y) = x
While Point(x, y) = prc And x < mx2
x = x + 1
Wend
While Point(x, y) <> prc And x < mx2
x = x + 1
Wend
If x = mx2 Then xright(y) = xleft(y) Else xright(y) = x
Next
_Dest destHandle&
For y = 0 To mx2
If xleft(y) <> mx2 Then Line (xleft(y) + x0 - TEmax, y + y0 - TEmax)-(xright(y) + x0 - TEmax, y + y0 - TEmax), c, BF
Next
_FreeImage tef
End Sub
Function BoxCollision% (b1x, b1y, b1w, b1h, b2x, b2y, b2w, b2h)
' x, y represent the box left most x and top most y
' w, h represent the box width and height which is the usual way sprites / tiles / images are described
' such that boxbottom = by + bh
' and boxright = bx + bw
If (b1y + b1h < b2y) Or (b1y > b2y + b2h) Or (b1x > b2x + b2w) Or (b1x + b1w < b2x) Then
BoxCollision% = 0
Else
BoxCollision% = -1
End If
End Function
' this needs max, min functions as well as BoxCollision%
Sub Intersect2Boxes (b1x, b1y, b1w, b1h, b2x, b2y, b2w, b2h, bix As Long, biy As Long, biw As Long, bih As Long)
If b2x >= b1x And b2x <= b1x + b1w And b2y >= b1y And b2y <= b1y + b1h Then 'top left corner in 2nd box
bix = b2x: biy = b2y
If b2x + b2w <= b1x + b1w Then biw = b2w Else biw = b1x + b1w - b2x
If b2y + b2h <= b1y + b1h Then bih = b2h Else bih = b1y + b1h - b2y
ElseIf b2x >= b1x And b2x <= b1x + b1w And b2y + b2h >= b1y And b2y + b2h <= b1y + b1h Then 'bottom left corner of 2nd box in first
bix = b2x
If b2x + b2w <= b1x + b1w Then biw = b2w Else biw = b1x + b1w - b2x
If b2y <= b1y Then biy = b1y: bih = b2y + b2h - b1y Else biy = b2y: bih = b2h
ElseIf b2x + b2w >= b1x And b2x + b2w <= b1x + b1w And b2y >= b1y And b2y <= b1y + b1h Then 'right top corner 2nd box in first
If b2x >= b1x Then bix = b2x: biw = b2w Else bix = b1x: biw = b2x + b2w - b1x
biy = b2y
If b2y + b2h <= b1y + b1h Then bih = b2h Else bih = b1y + b1h - b2y
ElseIf b2x + b2w >= b1x And b2x + b2w <= b1x + b1w And b2y + b2h >= b1y And b2y + b2h <= b1y + b1h Then 'left bottom corners in first box
If b2x >= b1x Then bix = b2x: biw = b2w Else bix = b1x: biw = b2x + b2w - b1x
If b2y >= b1y Then biy = b2y: bih = b2h Else biy = b1y: bih = b2y + b2h - b1y
ElseIf BoxCollision%(b1x, b1y, b1w, b1h, b2x, b2y, b2w, b2h) Then
bix = max(b1x, b2x): biy = max(b1y, b2y)
biw = min(b1x + b1w, b2x + b2w) - bix: bih = min(b1y + b1h, b2y + b2h) - biy
Else 'no intersect
bix = -1: biy = -1: biw = 0: bih = 0
End If
End Sub
Function max (a, b)
If a > b Then max = a Else max = b
End Function
Function min (a, b)
If a < b Then min = a Else min = b
End Function
' this sub needs Intersect2Boxes which uses max, min, and BoxCollision Functions
Function PixelCollision& (img1 As boxType, img2 As boxType, intx As Long, inty As Long)
' boxType here needs at least an x, y, w, h and img
Dim As Long x, y, ix, iy, iw, ih
Dim As _Unsigned Long p1, p2
intx = -1: inty = -1 ' no collision set
Intersect2Boxes img1.x, img1.y, img1.w, img1.h, img2.x, img2.y, img2.w, img2.h, ix, iy, iw, ih
If ix <> -1 Then ' the boxes intersect
y = iy: x = ix
Do
_Source img1.img
p1 = Point(x - img1.x, y - img1.y) ' point minus img x, y location = location in image I hope
_Source img2.img
p2 = Point(x - img2.x, y - img2.y)
If (p1 <> 0) And (p2 <> 0) Then
PixelCollision& = -1: intx = x: inty = y: Exit Function
End If
If (x + 1) > (ix + iw - 1) Then ' get rid of 2 slow For Loops
x = ix: y = y + 1
If y >= (iy + ih - 1) Then
_Source 0: Exit Function
Else
y = y + 1
End If
Else
x = x + 1
End If
Loop
End If
End Function
Function rndCW (C As Single, range As Single) 'center +/-range weights to center
rndCW = C + Rnd * range - Rnd * range
End Function
' explode sets up old dead particles for display for a life
' This sub sets up Dots to display with DrawDots
Sub explode (x, y, spread, cr, cg, cb)
' x, y explosion origin
' spread is diameter of area to cover from it number of dots, number of frames and speed are calculated
' setup
'Type particle
' As Long life, death
' As Single x, y, dx, dy, r
' As _Unsigned Long c
'End Type
'Dim Shared nDots
'nDots = 2000
'ReDim Shared dots(nDots) As particle
Dim As Long i, dotCount, newDots
Dim angle, speed, rd, rAve, frames
newDots = spread / 2 ' quota
frames = spread / 5
speed = spread / frames ' 0 to spread in frames
rAve = .5 * spread / Sqr(newDots)
For i = 1 To nDots ' find next available dot
If dots(i).life = 0 Then
dots(i).life = 1 ' turn on display
dots(i).death = frames
angle = _Pi(2 * Rnd)
dots(i).x = x: dots(i).y = y ' origin
rd = Rnd
dots(i).dx = rd * speed * Cos(angle) ' moving
dots(i).dy = rd * speed * Sin(angle)
dots(i).r = rndCW(rAve, rAve) ' radius
dots(i).c = _RGB32(cr + Rnd * 40 - 20, cg + Rnd * 40 - 20, cb + Rnd * 40 - 20) 'color
dotCount = dotCount + 1
If dotCount >= newDots Then Exit Sub
End If
Next
End Sub
Sub drawDots ' this sub needs fcirc to Fill Circles and Sub Explode sets up the Dots to draw.
' setup in main
'Type particle
' As Long life, death
' As Single x, y, dx, dy, r
' As _Unsigned Long c
'End Type
'Dim Shared nDots
'nDots = 2000
'ReDim Shared dots(nDots) As particle
Dim As Long i
For i = 1 To nDots ' display of living particles
If dots(i).life Then
fcirc dots(i).x, dots(i).y, dots(i).r, dots(i).c
' update dot
If dots(i).life + 1 >= dots(i).death Then
dots(i).life = 0
Else
dots(i).life = dots(i).life + 1
' might want air resistence or gravity added to dx or dy
dots(i).x = dots(i).x + dots(i).dx
dots(i).y = dots(i).y + dots(i).dy
If dots(i).x < 0 Or dots(i).x > xmax Then dots(i).life = 0
If dots(i).y < 0 Or dots(i).y > ymax Then dots(i).life = 0
dots(i).r = dots(i).r * 1 - (dots(i).life / dots(i).death) ' puff!
If dots(i).r <= 0 Then dots(i).life = 0
End If
End If
Next
End Sub
EDIT: fixed sound, much more interesting now and colored to "vaporize" spiders.
b = b + ...
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