void spRegionAttachment_updateQuad(ref RegionAttachment self, ref Slot slot, CCV3F_C4B_T2F_Quad quad, bool premultipliedAlpha)
{
float[] vertices = new float[8];
self.ComputeWorldVertices(slot.Skeleton.X, slot.Skeleton.Y, slot.Bone, vertices);
float r = (slot.Skeleton.R * slot.R * 255);
float g = (slot.Skeleton.G * slot.G * 255);
float b = (slot.Skeleton.B * slot.B * 255);
float normalizedAlpha = slot.Skeleton.A * slot.A;
if (premultipliedAlpha)
{
r *= normalizedAlpha;
g *= normalizedAlpha;
b *= normalizedAlpha;
}
float a = normalizedAlpha * 255;
quad.BottomLeft.Colors.R = Convert.ToByte(r);
quad.BottomLeft.Colors.G = Convert.ToByte(g);
quad.BottomLeft.Colors.B = Convert.ToByte(b);
quad.BottomLeft.Colors.A = Convert.ToByte(a);
quad.TopLeft.Colors.R = Convert.ToByte(r);
quad.TopLeft.Colors.G = Convert.ToByte(g);
quad.TopLeft.Colors.B = Convert.ToByte(b);
quad.TopLeft.Colors.A = Convert.ToByte(a);
quad.TopRight.Colors.R = Convert.ToByte(r);
quad.TopRight.Colors.G = Convert.ToByte(g);
quad.TopRight.Colors.B = Convert.ToByte(b);
quad.TopRight.Colors.A = Convert.ToByte(a);
quad.BottomRight.Colors.R = Convert.ToByte(r);
quad.BottomRight.Colors.G = Convert.ToByte(g);
quad.BottomRight.Colors.B = Convert.ToByte(b);
quad.BottomRight.Colors.A = Convert.ToByte(a);
quad.BottomLeft.Vertices.X = vertices[RegionAttachment.X1];
quad.BottomLeft.Vertices.Y = vertices[RegionAttachment.Y1];
quad.TopLeft.Vertices.X = vertices[RegionAttachment.X2];
quad.TopLeft.Vertices.Y = vertices[RegionAttachment.Y2];
quad.TopRight.Vertices.X = vertices[RegionAttachment.X3];
quad.TopRight.Vertices.Y = vertices[RegionAttachment.Y3];
quad.BottomRight.Vertices.X = vertices[RegionAttachment.X4];
quad.BottomRight.Vertices.Y = vertices[RegionAttachment.Y4];
quad.BottomLeft.TexCoords.U = self.UVs[RegionAttachment.X1];
quad.BottomLeft.TexCoords.V = self.UVs[RegionAttachment.Y1];
quad.TopLeft.TexCoords.U = self.UVs[RegionAttachment.X2];
quad.TopLeft.TexCoords.V = self.UVs[RegionAttachment.Y2];
quad.TopRight.TexCoords.U = self.UVs[RegionAttachment.X3];
quad.TopRight.TexCoords.V = self.UVs[RegionAttachment.Y3];
quad.BottomRight.TexCoords.U = self.UVs[RegionAttachment.X4];
quad.BottomRight.TexCoords.V = self.UVs[RegionAttachment.Y4];
}
void spRegionAttachment_updateQuad(RegionAttachment self, Slot slot, CCV3F_C4B_T2F_Quad quad, bool premultipliedAlpha = false)
{
float[] vertices = new float[8];
self.ComputeWorldVertices(slot.Skeleton.X, slot.Skeleton.Y, slot.Bone, vertices);
byte r = Convert.ToByte(slot.Skeleton.R * slot.R * 255);
byte g =Convert.ToByte( slot.Skeleton.G * slot.G * 255);
byte b = Convert.ToByte(slot.Skeleton.B * slot.B * 255);
byte normalizedAlpha = Convert.ToByte( slot.Skeleton.A * slot.A);
if (premultipliedAlpha)
{
r *= normalizedAlpha;
g *= normalizedAlpha;
b *= normalizedAlpha;
}
byte a = Convert.ToByte(normalizedAlpha * 255);
quad.BottomLeft.Colors.R = r;
quad.BottomLeft.Colors.G = g;
quad.BottomLeft.Colors.B = b;
quad.BottomLeft.Colors.A = a;
quad.TopLeft.Colors.R = r;
quad.TopLeft.Colors.G = g;
quad.TopLeft.Colors.B = b;
quad.TopLeft.Colors.A = a;
quad.TopRight.Colors.R = r;
quad.TopRight.Colors.G = g;
quad.TopRight.Colors.B = b;
quad.TopRight.Colors.A = a;
quad.BottomRight.Colors.R = r;
quad.BottomRight.Colors.G = g;
quad.BottomRight.Colors.B = b;
quad.BottomRight.Colors.A = a;
quad.BottomLeft.Vertices.X = vertices[VERTEX_X1];
quad.BottomLeft.Vertices.Y = vertices[VERTEX_Y1];
quad.TopLeft.Vertices.X = vertices[VERTEX_X2];
quad.TopLeft.Vertices.Y = vertices[VERTEX_Y2];
quad.TopRight.Vertices.X = vertices[VERTEX_X3];
quad.TopRight.Vertices.Y = vertices[VERTEX_Y3];
quad.BottomRight.Vertices.X = vertices[VERTEX_X4];
quad.BottomRight.Vertices.Y = vertices[VERTEX_Y4];
quad.BottomLeft.TexCoords.U = self.UVs[VERTEX_X1];
quad.BottomLeft.TexCoords.V = self.UVs[VERTEX_Y1];
quad.TopLeft.TexCoords.U = self.UVs[VERTEX_X2];
quad.TopLeft.TexCoords.V = self.UVs[VERTEX_Y2];
quad.TopRight.TexCoords.U = self.UVs[VERTEX_X3];
quad.TopRight.TexCoords.V = self.UVs[VERTEX_Y3];
quad.BottomRight.TexCoords.U = self.UVs[VERTEX_X4];
quad.BottomRight.TexCoords.V = self.UVs[VERTEX_Y4];
}
protected CCTex2F TextureCoordFromAlphaPoint(CCPoint alpha)
{
var ret = new CCTex2F(0.0f, 0.0f);
if (m_pSprite == null)
{
return(ret);
}
CCV3F_C4B_T2F_Quad quad = m_pSprite.Quad;
var min = new CCPoint(quad.BottomLeft.TexCoords.U, quad.BottomLeft.TexCoords.V);
var max = new CCPoint(quad.TopRight.TexCoords.U, quad.TopRight.TexCoords.V);
// Fix bug #1303 so that progress timer handles sprite frame texture rotation
if (m_pSprite.IsTextureRectRotated)
{
float tmp = alpha.X;
alpha.X = alpha.Y;
alpha.Y = tmp;
}
return(new CCTex2F(min.X * (1f - alpha.X) + max.X * alpha.X, min.Y * (1f - alpha.Y) + max.Y * alpha.Y));
}
private void UpdateQuad(ref CCV3F_C4B_T2F_Quad quad, ref CCParticle particle)
{
CCPoint newPosition;
if (m_ePositionType == CCPositionType.Free || m_ePositionType == CCPositionType.Relative)
{
newPosition.X = particle.pos.X - (s_currentPosition.X - particle.startPos.X);
newPosition.Y = particle.pos.Y - (s_currentPosition.Y - particle.startPos.Y);
}
else
{
newPosition = particle.pos;
}
// translate newPos to correct position, since matrix transform isn't performed in batchnode
// don't update the particle with the new position information, it will interfere with the radius and tangential calculations
if (m_pBatchNode != null)
{
newPosition.X += m_obPosition.X;
newPosition.Y += m_obPosition.Y;
}
CCColor4B color;
if (m_bOpacityModifyRGB)
{
color.R = (byte)(particle.color.R * particle.color.A * 255);
color.G = (byte)(particle.color.G * particle.color.A * 255);
color.B = (byte)(particle.color.B * particle.color.A * 255);
color.A = (byte)(particle.color.A * 255);
}
else
{
color.R = (byte)(particle.color.R * 255);
color.G = (byte)(particle.color.G * 255);
color.B = (byte)(particle.color.B * 255);
color.A = (byte)(particle.color.A * 255);
}
quad.BottomLeft.Colors = color;
quad.BottomRight.Colors = color;
quad.TopLeft.Colors = color;
quad.TopRight.Colors = color;
// vertices
float size_2 = particle.size / 2;
if (particle.rotation != 0.0)
{
float x1 = -size_2;
float y1 = -size_2;
float x2 = size_2;
float y2 = size_2;
float x = newPosition.X;
float y = newPosition.Y;
float r = -CCMathHelper.ToRadians(particle.rotation);
float cr = CCMathHelper.Cos(r);
float sr = CCMathHelper.Sin(r);
float ax = x1 * cr - y1 * sr + x;
float ay = x1 * sr + y1 * cr + y;
float bx = x2 * cr - y1 * sr + x;
float by = x2 * sr + y1 * cr + y;
float cx = x2 * cr - y2 * sr + x;
float cy = x2 * sr + y2 * cr + y;
float dx = x1 * cr - y2 * sr + x;
float dy = x1 * sr + y2 * cr + y;
// bottom-left
quad.BottomLeft.Vertices.X = ax;
quad.BottomLeft.Vertices.Y = ay;
// bottom-right vertex:
quad.BottomRight.Vertices.X = bx;
quad.BottomRight.Vertices.Y = by;
// top-left vertex:
quad.TopLeft.Vertices.X = dx;
quad.TopLeft.Vertices.Y = dy;
// top-right vertex:
quad.TopRight.Vertices.X = cx;
quad.TopRight.Vertices.Y = cy;
}
else
{
// bottom-left vertex:
quad.BottomLeft.Vertices.X = newPosition.X - size_2;
quad.BottomLeft.Vertices.Y = newPosition.Y - size_2;
// bottom-right vertex:
quad.BottomRight.Vertices.X = newPosition.X + size_2;
quad.BottomRight.Vertices.Y = newPosition.Y - size_2;
// top-left vertex:
quad.TopLeft.Vertices.X = newPosition.X - size_2;
quad.TopLeft.Vertices.Y = newPosition.Y + size_2;
// top-right vertex:
quad.TopRight.Vertices.X = newPosition.X + size_2;
quad.TopRight.Vertices.Y = newPosition.Y + size_2;
}
}
/// <summary>
/// Inserts a Quad (texture, vertex and color) at a certain index
/// index must be between 0 and the atlas capacity - 1
/// @since v0.8
/// </summary>
public void InsertQuad(ref CCV3F_C4B_T2F_Quad quad, int index)
{
Debug.Assert(index < m_pQuads.Capacity, "insertQuadWithTexture: Invalid index");
m_pQuads.Insert(index, quad);
Dirty = true;
}
public bool InitWithTexture(CCTexture2D pTexture, CCRect rect, bool rotated)
{
base.Init();
m_pobBatchNode = null;
// shader program
//setShaderProgram(CCShaderCache::sharedShaderCache()->programForKey(kCCShader_PositionTextureColor));
m_bRecursiveDirty = false;
Dirty = false;
m_bOpacityModifyRGB = true;
m_sBlendFunc = CCBlendFunc.AlphaBlend;
m_bFlipX = m_bFlipY = false;
// default transform anchor: center
AnchorPoint = new CCPoint(0.5f, 0.5f);
// zwoptex default values
m_obOffsetPosition = CCPoint.Zero;
m_bHasChildren = false;
// clean the Quad
m_sQuad = new CCV3F_C4B_T2F_Quad();
// Atlas: Color
var tmpColor = new CCColor4B(255, 255, 255, 255);
m_sQuad.BottomLeft.Colors = tmpColor;
m_sQuad.BottomRight.Colors = tmpColor;
m_sQuad.TopLeft.Colors = tmpColor;
m_sQuad.TopRight.Colors = tmpColor;
// update texture (calls updateBlendFunc)
Texture = pTexture;
SetTextureRect(rect, rotated, rect.Size);
// by default use "Self Render".
// if the sprite is added to a batchnode, then it will automatically switch to "batchnode Render"
BatchNode = null;
return true;
}
private void UpdateQuad(ref CCV3F_C4B_T2F_Quad quad, ref CCParticle particle)
{
CCPoint newPosition;
if (m_ePositionType == CCPositionType.Free || m_ePositionType == CCPositionType.Relative)
{
newPosition.X = particle.pos.X - (s_currentPosition.X - particle.startPos.X);
newPosition.Y = particle.pos.Y - (s_currentPosition.Y - particle.startPos.Y);
}
else
{
newPosition = particle.pos;
}
// translate newPos to correct position, since matrix transform isn't performed in batchnode
// don't update the particle with the new position information, it will interfere with the radius and tangential calculations
if (m_pBatchNode != null)
{
newPosition.X += m_obPosition.X;
newPosition.Y += m_obPosition.Y;
}
CCColor4B color;
if (m_bOpacityModifyRGB)
{
color.R = (byte) (particle.color.R * particle.color.A * 255);
color.G = (byte) (particle.color.G * particle.color.A * 255);
color.B = (byte) (particle.color.B * particle.color.A * 255);
color.A = (byte)(particle.color.A * 255);
}
else
{
color.R = (byte)(particle.color.R * 255);
color.G = (byte)(particle.color.G * 255);
color.B = (byte)(particle.color.B * 255);
color.A = (byte)(particle.color.A * 255);
}
quad.BottomLeft.Colors = color;
quad.BottomRight.Colors = color;
quad.TopLeft.Colors = color;
quad.TopRight.Colors = color;
// vertices
float size_2 = particle.size / 2;
if (particle.rotation != 0.0)
{
float x1 = -size_2;
float y1 = -size_2;
float x2 = size_2;
float y2 = size_2;
float x = newPosition.X;
float y = newPosition.Y;
float r = -CCMathHelper.ToRadians(particle.rotation);
float cr = CCMathHelper.Cos(r);
float sr = CCMathHelper.Sin(r);
float ax = x1 * cr - y1 * sr + x;
float ay = x1 * sr + y1 * cr + y;
float bx = x2 * cr - y1 * sr + x;
float by = x2 * sr + y1 * cr + y;
float cx = x2 * cr - y2 * sr + x;
float cy = x2 * sr + y2 * cr + y;
float dx = x1 * cr - y2 * sr + x;
float dy = x1 * sr + y2 * cr + y;
// bottom-left
quad.BottomLeft.Vertices.X = ax;
quad.BottomLeft.Vertices.Y = ay;
// bottom-right vertex:
quad.BottomRight.Vertices.X = bx;
quad.BottomRight.Vertices.Y = by;
// top-left vertex:
quad.TopLeft.Vertices.X = dx;
quad.TopLeft.Vertices.Y = dy;
// top-right vertex:
quad.TopRight.Vertices.X = cx;
quad.TopRight.Vertices.Y = cy;
}
else
{
// bottom-left vertex:
quad.BottomLeft.Vertices.X = newPosition.X - size_2;
quad.BottomLeft.Vertices.Y = newPosition.Y - size_2;
// bottom-right vertex:
quad.BottomRight.Vertices.X = newPosition.X + size_2;
quad.BottomRight.Vertices.Y = newPosition.Y - size_2;
// top-left vertex:
quad.TopLeft.Vertices.X = newPosition.X - size_2;
quad.TopLeft.Vertices.Y = newPosition.Y + size_2;
// top-right vertex:
quad.TopRight.Vertices.X = newPosition.X + size_2;
quad.TopRight.Vertices.Y = newPosition.Y + size_2;
}
}
/// <summary>
/// Inserts a Quad (texture, vertex and color) at a certain index
/// index must be between 0 and the atlas capacity - 1
/// @since v0.8
/// </summary>
public void InsertQuad(ref CCV3F_C4B_T2F_Quad quad, int index)
{
Debug.Assert(index < m_pQuads.Capacity, "insertQuadWithTexture: Invalid index");
m_pQuads.Insert(index, quad);
Dirty = true;
}
/// <summary>
/// updates a Quad (texture, vertex and color) at a certain index
/// index must be between 0 and the atlas capacity - 1
/// @since v0.8
/// </summary>
public void UpdateQuad(ref CCV3F_C4B_T2F_Quad quad, int index)
{
Debug.Assert(index >= 0 && index < m_pQuads.Capacity, "updateQuadWithTexture: Invalid index");
m_pQuads.count = Math.Max(index + 1, m_pQuads.count);
m_pQuads.Elements[index] = quad;
Dirty = true;
}
public void FillWithEmptyQuadsFromIndex(int index, int amount)
{
int to = index + amount;
CCV3F_C4B_T2F_Quad[] elements = m_pQuads.Elements;
var empty = new CCV3F_C4B_T2F_Quad();
for (int i = index; i < to; i++)
{
elements[i] = empty;
}
Dirty = true;
}
public void MoveQuadsFromIndex(int oldIndex, int amount, int newIndex)
{
Debug.Assert(newIndex + amount <= m_pQuads.count, "insertQuadFromIndex:atIndex: Invalid index");
Debug.Assert(oldIndex < m_pQuads.count, "insertQuadFromIndex:atIndex: Invalid index");
if (oldIndex == newIndex)
{
return;
}
var tmp = new CCV3F_C4B_T2F_Quad[amount];
Array.Copy(m_pQuads.Elements, oldIndex, tmp, 0, amount);
if (newIndex < oldIndex)
{
// move quads from newIndex to newIndex + amount to make room for buffer
Array.Copy(m_pQuads.Elements, newIndex + amount, m_pQuads.Elements, newIndex, oldIndex - newIndex);
//memmove(&m_pQuads[newIndex], &m_pQuads[newIndex + amount], (oldIndex - newIndex) * quadSize);
}
else
{
// move quads above back
Array.Copy(m_pQuads.Elements, oldIndex + amount, m_pQuads.Elements, oldIndex, newIndex - oldIndex);
//memmove(&m_pQuads[oldIndex], &m_pQuads[oldIndex + amount], (newIndex - oldIndex) * quadSize);
}
//memcpy(&m_pQuads[newIndex], tempQuads, amount * quadSize);
Array.Copy(tmp, 0, m_pQuads.Elements, newIndex, amount);
Dirty = true;
}
public override void Draw()
{
base.Draw();
// CC_NODE_DRAW_SETUP();
CCDrawManager.BlendFunc(blendFunc);
CCColor3B color = Color;
skeleton.R = color.R / 255f ;
skeleton.G = color.G / 255f;
skeleton.B = color.B / 255f;
skeleton.A = Opacity / 255f;
bool additive = false;
CCTextureAtlas textureAtlas = null;
CCV3F_C4B_T2F_Quad quad = new CCV3F_C4B_T2F_Quad();
quad.TopLeft.Vertices.Z = 0;
quad.TopRight.Vertices.Z = 0;
quad.BottomLeft.Vertices.Z = 0;
quad.BottomRight.Vertices.Z = 0;
for (int i = 0; i < skeleton.Slots.Count; i++)
{
Slot slot = skeleton.DrawOrder[i];
if (slot.Attachment == null || slot.Attachment.GetType().ToString() != "Spine.RegionAttachment") continue; //=> ??????????????
RegionAttachment attachment = (RegionAttachment)slot.Attachment;
CCTextureAtlas regionTextureAtlas = GetTextureAtlas(attachment);
regionTextureAtlas.DrawQuads(); //retain();
//self.rendererObject = textureAtlas;
//self.width = texture.PixelsWide;
//self.height = texture.PixelsHigh;
if (slot.Data.AdditiveBlending != additive)
{
if (textureAtlas != null)
{
textureAtlas.DrawQuads();
textureAtlas.RemoveAllQuads();
}
additive = !additive;
CCDrawManager.BlendFunc(new CCBlendFunc(blendFunc.Source, (additive) ? CCOGLES.GL_ONE : blendFunc.Destination) );
}
else if (textureAtlas != null && regionTextureAtlas != textureAtlas)
{
textureAtlas.DrawQuads();
textureAtlas.RemoveAllQuads();
}
textureAtlas = regionTextureAtlas;
int quadCount = textureAtlas.TotalQuads;
if (textureAtlas.Capacity == quadCount)
{
textureAtlas.DrawQuads();
textureAtlas.RemoveAllQuads();
if (!textureAtlas.ResizeCapacity(textureAtlas.Capacity * 2)) return;
}
spRegionAttachment_updateQuad(attachment, slot, ref quad, premultipliedAlpha);
textureAtlas.UpdateQuad(ref quad, quadCount);
}
if (textureAtlas != null)
{
textureAtlas.DrawQuads();
textureAtlas.RemoveAllQuads();
}
if (debugSlots)
{
CCPoint[] points = new CCPoint[4];
CCV3F_C4B_T2F_Quad quada = new CCV3F_C4B_T2F_Quad();
for (int i = 0, n = skeleton.Slots.Count; i < n; i++)
{
Slot slot = skeleton.DrawOrder[i];
if (slot.Attachment == null || slot.Attachment.Name != "ATTACHMENT_REGION") continue;
RegionAttachment attachment = (RegionAttachment)slot.Attachment;
spRegionAttachment_updateQuad(attachment, slot, ref quad);
points[0] = new CCPoint(quada.BottomLeft.Vertices.X, quada.BottomLeft.Vertices.Y);
points[1] = new CCPoint(quada.BottomRight.Vertices.X, quada.BottomRight.Vertices.Y);
points[2] = new CCPoint(quada.TopRight.Vertices.X, quada.TopRight.Vertices.Y);
points[3] = new CCPoint(quada.TopLeft.Vertices.X, quada.TopLeft.Vertices.Y);
CCDrawingPrimitives.DrawPoly(points, 4, true, new CCColor4B(0, 0, 255, 255));
}
}
if (debugBones)
{
// Bone lengths.
for (int i = 0; i < skeleton.Bones.Count; i++)
{
Bone bone = skeleton.Bones[i];
float x = bone.Data.Length * bone.M00 + bone.WorldX;
float y = bone.Data.Length * bone.M10 + bone.WorldY;
CCDrawingPrimitives.Begin();
CCDrawingPrimitives.DrawLine(new CCPoint(bone.WorldX, bone.WorldY), new CCPoint(x, y), new CCColor4B(255, 0, 0, 255));
CCDrawingPrimitives.End();
}
// Bone origins.
for (int i = 0; i < skeleton.Bones.Count; i++)
{
Bone bone = skeleton.Bones[i];
CCDrawingPrimitives.Begin();
CCDrawingPrimitives.DrawPoint(new CCPoint(bone.WorldX, bone.WorldY), 4, new CCColor4B(0, 0, 255, 255));
CCDrawingPrimitives.End();
}
}
}
