private static int _amInitDirectional(object p) { AppMain.AMS_AME_CREATE_PARAM amsAmeCreateParam = (AppMain.AMS_AME_CREATE_PARAM)p; AppMain.AMS_AME_NODE_DIRECTIONAL node = (AppMain.AMS_AME_NODE_DIRECTIONAL)amsAmeCreateParam.node; AppMain.AMS_AME_RUNTIME_WORK_DIRECTIONAL work = (AppMain.AMS_AME_RUNTIME_WORK_DIRECTIONAL)amsAmeCreateParam.work; work.time = -node.start_time; AppMain.amVectorAdd(ref work.position, amsAmeCreateParam.parent_position.Value, amsAmeCreateParam.position.Value); AppMain.amVectorAdd(ref work.position, node.translate); AppMain.amVectorScale(ref work.velocity, amsAmeCreateParam.parent_velocity.Value, node.inheritance_rate); AppMain.amVectorAdd(ref work.velocity, amsAmeCreateParam.velocity.Value); work.rotate = node.rotate; work.spread = node.spread; return(0); }
public static AppMain.AMS_AME_HEADER readAMEfile(BinaryReader br) { AppMain.AMS_AME_HEADER amsAmeHeader = new AppMain.AMS_AME_HEADER(); amsAmeHeader.file_id = br.ReadBytes(4); amsAmeHeader.file_version = br.ReadInt32(); amsAmeHeader.node_num = br.ReadInt32(); amsAmeHeader.node_ofst = br.ReadUInt32(); amsAmeHeader.bounding.center.x = br.ReadSingle(); amsAmeHeader.bounding.center.y = br.ReadSingle(); amsAmeHeader.bounding.center.z = br.ReadSingle(); amsAmeHeader.bounding.center.w = br.ReadSingle(); amsAmeHeader.bounding.radius = br.ReadSingle(); amsAmeHeader.bounding.radius2 = br.ReadSingle(); br.BaseStream.Seek(8L, SeekOrigin.Current); br.BaseStream.Seek(16L, SeekOrigin.Current); amsAmeHeader.node = new AppMain.AMS_AME_NODE[amsAmeHeader.node_num]; br.BaseStream.Seek((long)amsAmeHeader.node_ofst, SeekOrigin.Begin); Dictionary <uint, AppMain.AMS_AME_NODE> dictionary = new Dictionary <uint, AppMain.AMS_AME_NODE>(amsAmeHeader.node_num); for (int index1 = 0; index1 < amsAmeHeader.node_num; ++index1) { uint index2 = (uint)br.BaseStream.Position + 15U & 4294967280U; if ((long)index2 < br.BaseStream.Length) { br.BaseStream.Seek((long)index2, SeekOrigin.Begin); short id = br.ReadInt16(); AppMain.AME_AME_NODE_TYPE ameAmeNodeType = (AppMain.AME_AME_NODE_TYPE)br.ReadInt16(); uint flag = br.ReadUInt32(); char[] name = br.ReadChars(12); int child_offset = br.ReadInt32(); int sibling_offset = br.ReadInt32(); int parent_offset = br.ReadInt32(); switch (ameAmeNodeType) { case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_OMNI: AppMain.AMS_AME_NODE_OMNI amsAmeNodeOmni = new AppMain.AMS_AME_NODE_OMNI(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeOmni, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeOmni.translate); AppMain.readQuaternion(br, ref amsAmeNodeOmni.rotate); amsAmeNodeOmni.inheritance_rate = br.ReadSingle(); amsAmeNodeOmni.life = br.ReadSingle(); amsAmeNodeOmni.start_time = br.ReadSingle(); amsAmeNodeOmni.offset = br.ReadSingle(); amsAmeNodeOmni.offset_chaos = br.ReadSingle(); amsAmeNodeOmni.speed = br.ReadSingle(); amsAmeNodeOmni.speed_chaos = br.ReadSingle(); amsAmeNodeOmni.max_count = br.ReadSingle(); amsAmeNodeOmni.frequency = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeOmni; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeOmni; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_DIRECTIONAL: AppMain.AMS_AME_NODE_DIRECTIONAL ameNodeDirectional = new AppMain.AMS_AME_NODE_DIRECTIONAL(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)ameNodeDirectional, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, ameNodeDirectional.translate); AppMain.readQuaternion(br, ref ameNodeDirectional.rotate); ameNodeDirectional.inheritance_rate = br.ReadSingle(); ameNodeDirectional.life = br.ReadSingle(); ameNodeDirectional.start_time = br.ReadSingle(); ameNodeDirectional.offset = br.ReadSingle(); ameNodeDirectional.offset_chaos = br.ReadSingle(); ameNodeDirectional.speed = br.ReadSingle(); ameNodeDirectional.speed_chaos = br.ReadSingle(); ameNodeDirectional.max_count = br.ReadSingle(); ameNodeDirectional.frequency = br.ReadSingle(); ameNodeDirectional.spread = br.ReadSingle(); ameNodeDirectional.spread_variation = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)ameNodeDirectional; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)ameNodeDirectional; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_SURFACE: AppMain.AMS_AME_NODE_SURFACE amsAmeNodeSurface = new AppMain.AMS_AME_NODE_SURFACE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeSurface, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeSurface.translate); AppMain.readQuaternion(br, ref amsAmeNodeSurface.rotate); amsAmeNodeSurface.inheritance_rate = br.ReadSingle(); amsAmeNodeSurface.life = br.ReadSingle(); amsAmeNodeSurface.start_time = br.ReadSingle(); amsAmeNodeSurface.offset = br.ReadSingle(); amsAmeNodeSurface.offset_chaos = br.ReadSingle(); amsAmeNodeSurface.speed = br.ReadSingle(); amsAmeNodeSurface.speed_chaos = br.ReadSingle(); amsAmeNodeSurface.max_count = br.ReadSingle(); amsAmeNodeSurface.frequency = br.ReadSingle(); amsAmeNodeSurface.width = br.ReadSingle(); amsAmeNodeSurface.width_variation = br.ReadSingle(); amsAmeNodeSurface.height = br.ReadSingle(); amsAmeNodeSurface.height_variation = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeSurface; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeSurface; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_CIRCLE: AppMain.AMS_AME_NODE_CIRCLE amsAmeNodeCircle = new AppMain.AMS_AME_NODE_CIRCLE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeCircle, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeCircle.translate); AppMain.readQuaternion(br, ref amsAmeNodeCircle.rotate); amsAmeNodeCircle.inheritance_rate = br.ReadSingle(); amsAmeNodeCircle.life = br.ReadSingle(); amsAmeNodeCircle.start_time = br.ReadSingle(); amsAmeNodeCircle.offset = br.ReadSingle(); amsAmeNodeCircle.offset_chaos = br.ReadSingle(); amsAmeNodeCircle.speed = br.ReadSingle(); amsAmeNodeCircle.speed_chaos = br.ReadSingle(); amsAmeNodeCircle.max_count = br.ReadSingle(); amsAmeNodeCircle.frequency = br.ReadSingle(); amsAmeNodeCircle.spread = br.ReadSingle(); amsAmeNodeCircle.spread_variation = br.ReadSingle(); amsAmeNodeCircle.radius = br.ReadSingle(); amsAmeNodeCircle.radius_variation = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeCircle; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeCircle; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_SIMPLE_SPRITE: case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_SPRITE: AppMain.AMS_AME_NODE_SPRITE amsAmeNodeSprite = new AppMain.AMS_AME_NODE_SPRITE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeSprite, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeSprite.translate); AppMain.readQuaternion(br, ref amsAmeNodeSprite.rotate); amsAmeNodeSprite.z_bias = br.ReadSingle(); amsAmeNodeSprite.inheritance_rate = br.ReadSingle(); amsAmeNodeSprite.life = br.ReadSingle(); amsAmeNodeSprite.start_time = br.ReadSingle(); amsAmeNodeSprite.size = br.ReadSingle(); amsAmeNodeSprite.size_chaos = br.ReadSingle(); amsAmeNodeSprite.scale_x_start = br.ReadSingle(); amsAmeNodeSprite.scale_x_end = br.ReadSingle(); amsAmeNodeSprite.scale_y_start = br.ReadSingle(); amsAmeNodeSprite.scale_y_end = br.ReadSingle(); amsAmeNodeSprite.twist_angle = br.ReadSingle(); amsAmeNodeSprite.twist_angle_chaos = br.ReadSingle(); amsAmeNodeSprite.twist_angle_speed = br.ReadSingle(); amsAmeNodeSprite.color_start.color = br.ReadUInt32(); amsAmeNodeSprite.color_end.color = br.ReadUInt32(); amsAmeNodeSprite.blend = br.ReadInt32(); amsAmeNodeSprite.texture_slot = br.ReadInt16(); amsAmeNodeSprite.texture_id = br.ReadInt16(); amsAmeNodeSprite.cropping_l = br.ReadSingle(); amsAmeNodeSprite.cropping_t = br.ReadSingle(); amsAmeNodeSprite.cropping_r = br.ReadSingle(); amsAmeNodeSprite.cropping_b = br.ReadSingle(); amsAmeNodeSprite.scroll_u = br.ReadSingle(); amsAmeNodeSprite.scroll_v = br.ReadSingle(); amsAmeNodeSprite.tex_anim = AppMain.readTexAnim(br); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeSprite; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeSprite; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_LINE: AppMain.AMS_AME_NODE_LINE amsAmeNodeLine = new AppMain.AMS_AME_NODE_LINE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeLine, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeLine.translate); AppMain.readQuaternion(br, ref amsAmeNodeLine.rotate); amsAmeNodeLine.z_bias = br.ReadSingle(); amsAmeNodeLine.inheritance_rate = br.ReadSingle(); amsAmeNodeLine.life = br.ReadSingle(); amsAmeNodeLine.start_time = br.ReadSingle(); amsAmeNodeLine.length_start = br.ReadSingle(); amsAmeNodeLine.length_end = br.ReadSingle(); amsAmeNodeLine.inside_width_start = br.ReadSingle(); amsAmeNodeLine.inside_width_end = br.ReadSingle(); amsAmeNodeLine.outside_width_start = br.ReadSingle(); amsAmeNodeLine.outside_width_end = br.ReadSingle(); amsAmeNodeLine.inside_color_start.color = br.ReadUInt32(); amsAmeNodeLine.inside_color_end.color = br.ReadUInt32(); amsAmeNodeLine.outside_color_start.color = br.ReadUInt32(); amsAmeNodeLine.outside_color_end.color = br.ReadUInt32(); amsAmeNodeLine.blend = br.ReadInt32(); amsAmeNodeLine.texture_slot = br.ReadInt16(); amsAmeNodeLine.texture_id = br.ReadInt16(); amsAmeNodeLine.cropping_l = br.ReadSingle(); amsAmeNodeLine.cropping_t = br.ReadSingle(); amsAmeNodeLine.cropping_r = br.ReadSingle(); amsAmeNodeLine.cropping_b = br.ReadSingle(); amsAmeNodeLine.scroll_u = br.ReadSingle(); amsAmeNodeLine.scroll_v = br.ReadSingle(); amsAmeNodeLine.tex_anim = AppMain.readTexAnim(br); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeLine; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeLine; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_PLANE: AppMain.AMS_AME_NODE_PLANE amsAmeNodePlane = new AppMain.AMS_AME_NODE_PLANE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodePlane, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodePlane.translate); AppMain.readQuaternion(br, ref amsAmeNodePlane.rotate); AppMain.readVector4(br, amsAmeNodePlane.rotate_axis); amsAmeNodePlane.z_bias = br.ReadSingle(); amsAmeNodePlane.inheritance_rate = br.ReadSingle(); amsAmeNodePlane.life = br.ReadSingle(); amsAmeNodePlane.start_time = br.ReadSingle(); amsAmeNodePlane.size = br.ReadSingle(); amsAmeNodePlane.size_chaos = br.ReadSingle(); amsAmeNodePlane.scale_x_start = br.ReadSingle(); amsAmeNodePlane.scale_x_end = br.ReadSingle(); amsAmeNodePlane.scale_y_start = br.ReadSingle(); amsAmeNodePlane.scale_y_end = br.ReadSingle(); amsAmeNodePlane.color_start.color = br.ReadUInt32(); amsAmeNodePlane.color_end.color = br.ReadUInt32(); amsAmeNodePlane.blend = br.ReadInt32(); amsAmeNodePlane.texture_slot = br.ReadInt16(); amsAmeNodePlane.texture_id = br.ReadInt16(); amsAmeNodePlane.cropping_l = br.ReadSingle(); amsAmeNodePlane.cropping_t = br.ReadSingle(); amsAmeNodePlane.cropping_r = br.ReadSingle(); amsAmeNodePlane.cropping_b = br.ReadSingle(); amsAmeNodePlane.scroll_u = br.ReadSingle(); amsAmeNodePlane.scroll_v = br.ReadSingle(); amsAmeNodePlane.tex_anim = AppMain.readTexAnim(br); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodePlane; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodePlane; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_MODEL: AppMain.AMS_AME_NODE_MODEL amsAmeNodeModel = new AppMain.AMS_AME_NODE_MODEL(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeModel, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeModel.translate); AppMain.readQuaternion(br, ref amsAmeNodeModel.rotate); AppMain.readVector4(br, amsAmeNodeModel.rotate_axis); AppMain.readVector4(br, amsAmeNodeModel.scale_start); AppMain.readVector4(br, amsAmeNodeModel.scale_end); amsAmeNodeModel.z_bias = br.ReadSingle(); amsAmeNodeModel.inheritance_rate = br.ReadSingle(); amsAmeNodeModel.life = br.ReadSingle(); amsAmeNodeModel.start_time = br.ReadSingle(); amsAmeNodeModel.model_name = br.ReadChars(8); amsAmeNodeModel.lod = br.ReadInt32(); amsAmeNodeModel.color_start.color = br.ReadUInt32(); amsAmeNodeModel.color_end.color = br.ReadUInt32(); amsAmeNodeModel.blend = br.ReadInt32(); amsAmeNodeModel.scroll_u = br.ReadSingle(); amsAmeNodeModel.scroll_v = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeModel; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeModel; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_GRAVITY: AppMain.AMS_AME_NODE_GRAVITY amsAmeNodeGravity = new AppMain.AMS_AME_NODE_GRAVITY(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeGravity, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeGravity.direction); amsAmeNodeGravity.magnitude = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeGravity; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeGravity; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_UNIFORM: AppMain.AMS_AME_NODE_UNIFORM amsAmeNodeUniform = new AppMain.AMS_AME_NODE_UNIFORM(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeUniform, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeUniform.direction); amsAmeNodeUniform.magnitude = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeUniform; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeUniform; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_RADIAL: AppMain.AMS_AME_NODE_RADIAL amsAmeNodeRadial = new AppMain.AMS_AME_NODE_RADIAL(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeRadial, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeRadial.position); amsAmeNodeRadial.magnitude = br.ReadSingle(); amsAmeNodeRadial.attenuation = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeRadial; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeRadial; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_VORTEX: AppMain.AMS_AME_NODE_VORTEX amsAmeNodeVortex = new AppMain.AMS_AME_NODE_VORTEX(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeVortex, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeVortex.position); AppMain.readVector4(br, amsAmeNodeVortex.axis); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeVortex; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeVortex; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_DRAG: AppMain.AMS_AME_NODE_DRAG amsAmeNodeDrag = new AppMain.AMS_AME_NODE_DRAG(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeDrag, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeDrag.position); amsAmeNodeDrag.magnitude = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeDrag; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeDrag; break; case AppMain.AME_AME_NODE_TYPE.AME_AME_NODE_TYPE_NOISE: AppMain.AMS_AME_NODE_NOISE amsAmeNodeNoise = new AppMain.AMS_AME_NODE_NOISE(); AppMain.fillAMENodeBegin((AppMain.AMS_AME_NODE)amsAmeNodeNoise, id, (short)ameAmeNodeType, flag, name, child_offset, sibling_offset, parent_offset); AppMain.readVector4(br, amsAmeNodeNoise.axis); amsAmeNodeNoise.magnitude = br.ReadSingle(); dictionary[index2] = (AppMain.AMS_AME_NODE)amsAmeNodeNoise; amsAmeHeader.node[index1] = (AppMain.AMS_AME_NODE)amsAmeNodeNoise; break; } } else { break; } } foreach (KeyValuePair <uint, AppMain.AMS_AME_NODE> keyValuePair in dictionary) { AppMain.AMS_AME_NODE amsAmeNode = keyValuePair.Value; if (amsAmeNode.child_offset != 0) { amsAmeNode.child = dictionary[(uint)amsAmeNode.child_offset]; } if (amsAmeNode.parent_offset != 0) { amsAmeNode.parent = dictionary[(uint)amsAmeNode.parent_offset]; } if (amsAmeNode.sibling_offset != 0) { amsAmeNode.sibling = dictionary[(uint)amsAmeNode.sibling_offset]; } } return(amsAmeHeader); }
private static int _amUpdateDirectional(object r) { AppMain.AMS_AME_RUNTIME amsAmeRuntime1 = (AppMain.AMS_AME_RUNTIME)r; AppMain.AMS_AME_NODE_DIRECTIONAL node = (AppMain.AMS_AME_NODE_DIRECTIONAL)amsAmeRuntime1.node; AppMain.AMS_AME_RUNTIME_WORK_DIRECTIONAL runtimeWorkDirectional = new AppMain.AMS_AME_RUNTIME_WORK_DIRECTIONAL(amsAmeRuntime1.work); runtimeWorkDirectional.time += AppMain._am_unit_frame; if ((double)runtimeWorkDirectional.time <= 0.0) { return(0); } if ((double)node.life != -1.0 && (double)runtimeWorkDirectional.time >= (double)node.life) { return(1); } AppMain.NNS_VECTOR4D amEffectVel = AppMain._amEffect_vel; AppMain.amVectorScale(ref amEffectVel, runtimeWorkDirectional.velocity, AppMain._am_unit_time); AppMain.amVectorAdd(ref runtimeWorkDirectional.position, amEffectVel); runtimeWorkDirectional.spread += node.spread_variation * AppMain._am_unit_time; AppMain.NNS_MATRIX amEffectMtx = AppMain._amEffect_mtx; AppMain.nnMakeUnitMatrix(amEffectMtx); AppMain.amMatrixPush(amEffectMtx); AppMain.NNS_QUATERNION rotate = runtimeWorkDirectional.rotate; AppMain.amQuatToMatrix((AppMain.NNS_MATRIX)null, ref rotate, null); runtimeWorkDirectional.rotate = rotate; AppMain.AMS_AME_LIST next = amsAmeRuntime1.child_head.next; AppMain.AMS_AME_LIST childTail = amsAmeRuntime1.child_tail; AppMain.NNS_VECTOR4D amEffectPosition = AppMain._amEffect_position; AppMain.NNS_VECTOR4D amEffectVelocity = AppMain._amEffect_velocity; AppMain.NNS_VECTOR4D amEffectDirection = AppMain._amEffect_direction; for (; next != childTail; next = next.next) { AppMain.AMS_AME_RUNTIME amsAmeRuntime2 = (AppMain.AMS_AME_RUNTIME)next; amsAmeRuntime2.amount += node.frequency * AppMain._am_unit_frame; while ((double)amsAmeRuntime2.amount >= 1.0) { --amsAmeRuntime2.amount; ++amsAmeRuntime2.count; if ((double)node.max_count != -1.0 && (double)((int)amsAmeRuntime2.work_num + (int)amsAmeRuntime2.active_num) < (double)node.max_count) { AppMain.AMS_AME_CREATE_PARAM effectCreateParam = AppMain._amEffect_create_param; effectCreateParam.Clear(); AppMain.amEffectRandomConeVectorDeg(ref amEffectDirection, runtimeWorkDirectional.spread); AppMain.amMatrixCalcPoint(amEffectDirection, amEffectDirection); AppMain.amVectorScale(ref amEffectVelocity, ref amEffectDirection, node.offset + node.offset_chaos * AppMain.nnRandom()); amEffectPosition.Assign(amEffectVelocity); AppMain.amVectorScale(ref amEffectVelocity, ref amEffectDirection, node.speed + node.speed_chaos * AppMain.nnRandom()); effectCreateParam.ecb = amsAmeRuntime1.ecb; effectCreateParam.runtime = amsAmeRuntime2; effectCreateParam.node = amsAmeRuntime2.node; effectCreateParam.parent_position = runtimeWorkDirectional.position; effectCreateParam.parent_velocity = runtimeWorkDirectional.velocity; effectCreateParam.position = amEffectPosition; effectCreateParam.velocity = amEffectVelocity; switch (AppMain.AMD_AME_SUPER_CLASS_ID(amsAmeRuntime2.node)) { case 256: AppMain._amCreateEmitter(effectCreateParam); continue; case 512: AppMain._amCreateParticle(effectCreateParam); continue; default: continue; } } } } AppMain.amMatrixPop(); return(0); }