public static void _amCreateSpawnParticle( AppMain.AMS_AME_RUNTIME runtime, AppMain.AMS_AME_RUNTIME_WORK work) { AppMain.NNS_VECTOR4D pVec = new AppMain.NNS_VECTOR4D(); AppMain.amVectorInit(pVec); AppMain.AMS_AME_CREATE_PARAM amsAmeCreateParam = AppMain.GlobalPool <AppMain.AMS_AME_CREATE_PARAM> .Alloc(); amsAmeCreateParam.ecb = runtime.ecb; amsAmeCreateParam.runtime = runtime.spawn_runtime; amsAmeCreateParam.node = runtime.spawn_runtime.node; amsAmeCreateParam.position = pVec; amsAmeCreateParam.velocity = pVec; amsAmeCreateParam.parent_position = work.position; amsAmeCreateParam.parent_velocity = work.velocity; if ((runtime.state & 8192) != 0) { runtime.spawn_runtime.state |= 8192; } AppMain._amCreateParticle(amsAmeCreateParam); if (AppMain.AMD_AME_NODE_TYPE(runtime.node) == AppMain.AMD_AME_NODE_TYPE(amsAmeCreateParam.node)) { AppMain.AMS_AME_NODE node1 = runtime.node; AppMain.AMS_AME_NODE node2 = amsAmeCreateParam.node; switch (AppMain.AMD_AME_NODE_TYPE(amsAmeCreateParam.node)) { case 512: AppMain.AMS_AME_RUNTIME_WORK_SIMPLE_SPRITE workSimpleSprite = (AppMain.AMS_AME_RUNTIME_WORK_SIMPLE_SPRITE)work; AppMain.AMS_AME_RUNTIME_WORK_SIMPLE_SPRITE work1 = (AppMain.AMS_AME_RUNTIME_WORK_SIMPLE_SPRITE)amsAmeCreateParam.work; if (((int)node1.flag & (int)node2.flag & 131072) != 0 && (((int)workSimpleSprite.flag ^ (int)work1.flag) & 8) != 0) { work1.flag ^= 8U; work1.set_st(work1.st.z, work1.st.y, work1.st.x, work1.st.w); } if (((int)node1.flag & (int)node2.flag & 262144) != 0 && (((int)workSimpleSprite.flag ^ (int)work1.flag) & 16) != 0) { work1.flag ^= 16U; work1.set_st(work1.st.x, work1.st.w, work1.st.z, work1.st.y); break; } break; case 513: AppMain.AMS_AME_RUNTIME_WORK_SPRITE runtimeWorkSprite = (AppMain.AMS_AME_RUNTIME_WORK_SPRITE)work; AppMain.AMS_AME_RUNTIME_WORK_SPRITE work2 = (AppMain.AMS_AME_RUNTIME_WORK_SPRITE)amsAmeCreateParam.work; if (((int)node1.flag & (int)node2.flag & 4) != 0) { if (((int)runtimeWorkSprite.flag & 4) != 0) { work2.flag |= 4U; } else { work2.flag &= 4294967291U; } } if (((int)node1.flag & (int)node2.flag & 131072) != 0 && (((int)runtimeWorkSprite.flag ^ (int)work2.flag) & 8) != 0) { work2.flag ^= 8U; work2.set_st(work2.st.z, work2.st.y, work2.st.x, work2.st.w); } if (((int)node1.flag & (int)node2.flag & 262144) != 0 && (((int)runtimeWorkSprite.flag ^ (int)work2.flag) & 16) != 0) { work2.flag ^= 16U; work2.set_st(work2.st.x, work2.st.w, work2.st.z, work2.st.y); break; } break; case 514: AppMain.AMS_AME_RUNTIME_WORK_LINE ameRuntimeWorkLine = (AppMain.AMS_AME_RUNTIME_WORK_LINE)work; AppMain.AMS_AME_RUNTIME_WORK_LINE work3 = (AppMain.AMS_AME_RUNTIME_WORK_LINE)amsAmeCreateParam.work; if (((int)node1.flag & (int)node2.flag & 131072) != 0 && (((int)ameRuntimeWorkLine.flag ^ (int)work3.flag) & 8) != 0) { work3.flag ^= 8U; work3.set_st(work3.st.z, work3.st.y, work3.st.x, work3.st.w); } if (((int)node1.flag & (int)node2.flag & 262144) != 0 && (((int)ameRuntimeWorkLine.flag ^ (int)work3.flag) & 16) != 0) { work3.flag ^= 16U; work3.set_st(work3.st.x, work3.st.w, work3.st.z, work3.st.y); break; } break; case 515: AppMain.AMS_AME_RUNTIME_WORK_PLANE runtimeWorkPlane = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)work; AppMain.AMS_AME_RUNTIME_WORK_PLANE work4 = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)amsAmeCreateParam.work; if (((int)node1.flag & (int)node2.flag & 131072) != 0 && (((int)runtimeWorkPlane.flag ^ (int)work4.flag) & 8) != 0) { work4.flag ^= 8U; work4.set_st(work4.st.z, work4.st.y, work4.st.x, work4.st.w); } if (((int)node1.flag & (int)node2.flag & 262144) != 0 && (((int)runtimeWorkPlane.flag ^ (int)work4.flag) & 16) != 0) { work4.flag ^= 16U; work4.set_st(work4.st.x, work4.st.w, work4.st.z, work4.st.y); break; } break; } } AppMain.GlobalPool <AppMain.AMS_AME_CREATE_PARAM> .Release(amsAmeCreateParam); //AppMain.GlobalPool<AppMain.NNS_VECTOR4D>.Release(pVec); }
public static int _amDrawPlane(object r) { AppMain.AMS_AME_RUNTIME runtime = (AppMain.AMS_AME_RUNTIME)r; AppMain.AMS_AME_NODE_PLANE node = (AppMain.AMS_AME_NODE_PLANE)runtime.node; AppMain.AMS_AME_LIST next = runtime.active_head.next; AppMain.AMS_AME_LIST activeTail = runtime.active_tail; AppMain.AMS_PARAM_DRAW_PRIMITIVE setParam = AppMain.GlobalPool <AppMain.AMS_PARAM_DRAW_PRIMITIVE> .Alloc(); int num1 = AppMain._amEffectSetDrawMode(runtime, setParam, node.blend); AppMain.SNNS_VECTOR4D pDst = new AppMain.SNNS_VECTOR4D(); float zBias = node.z_bias; AppMain.amVectorSet(out pDst, zBias * AppMain._am_ef_worldViewMtx.M20, zBias * AppMain._am_ef_worldViewMtx.M21, zBias * AppMain._am_ef_worldViewMtx.M22); AppMain.SNNS_VECTOR snnsVector = new AppMain.SNNS_VECTOR(); if (((int)node.flag & 4096) != 0) { AppMain.NNS_PRIM3D_PCT_ARRAY nnsPriM3DPctArray = AppMain.amDrawAlloc_NNS_PRIM3D_PCT(6 * (int)runtime.active_num); AppMain.NNS_PRIM3D_PCT[] buffer = nnsPriM3DPctArray.buffer; int offset = nnsPriM3DPctArray.offset; float num2 = 0.0f; for (; next != activeTail; next = next.next) { AppMain.AMS_AME_RUNTIME_WORK_PLANE runtimeWorkPlane = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)(AppMain.AMS_AME_RUNTIME_WORK) next; AppMain.amMatrixPush(); AppMain.NNS_MATRIX current = AppMain.amMatrixGetCurrent(); float x = runtimeWorkPlane.size.x; float y = runtimeWorkPlane.size.y; AppMain.amVectorAdd(ref snnsVector, runtimeWorkPlane.position, ref pDst); AppMain.NNS_QUATERNION rotate = runtimeWorkPlane.rotate; AppMain.amQuatMultiMatrix(ref rotate, ref snnsVector); runtimeWorkPlane.rotate = rotate; num2 = AppMain.nnDistanceVector(ref snnsVector, AppMain._am_ef_camPos); buffer[offset].Pos.Assign(-x, y, 0.0f); buffer[offset + 1].Pos.Assign(x, y, 0.0f); buffer[offset + 2].Pos.Assign(-x, -y, 0.0f); buffer[offset + 5].Pos.Assign(x, -y, 0.0f); AppMain.nnTransformVector(ref buffer[offset].Pos, current, ref buffer[offset].Pos); AppMain.nnTransformVector(ref buffer[offset + 1].Pos, current, ref buffer[offset + 1].Pos); AppMain.nnTransformVector(ref buffer[offset + 2].Pos, current, ref buffer[offset + 2].Pos); AppMain.nnTransformVector(ref buffer[offset + 5].Pos, current, ref buffer[offset + 5].Pos); buffer[offset + 5].Col = AppMain.AMD_RGBA8888(runtimeWorkPlane.color.r, runtimeWorkPlane.color.g, runtimeWorkPlane.color.b, runtimeWorkPlane.color.a); buffer[offset].Col = buffer[offset + 1].Col = buffer[offset + 2].Col = buffer[offset + 5].Col; buffer[offset].Tex.u = runtimeWorkPlane.st.x; buffer[offset].Tex.v = runtimeWorkPlane.st.y; buffer[offset + 1].Tex.u = runtimeWorkPlane.st.z; buffer[offset + 1].Tex.v = runtimeWorkPlane.st.y; buffer[offset + 2].Tex.u = runtimeWorkPlane.st.x; buffer[offset + 2].Tex.v = runtimeWorkPlane.st.w; buffer[offset + 5].Tex.u = runtimeWorkPlane.st.z; buffer[offset + 5].Tex.v = runtimeWorkPlane.st.w; buffer[offset + 3] = buffer[offset + 1]; buffer[offset + 4] = buffer[offset + 2]; offset += 6; AppMain.amMatrixPop(); } setParam.format3D = 4; setParam.type = 0; setParam.vtxPCT3D = nnsPriM3DPctArray; setParam.texlist = runtime.texlist; setParam.texId = (int)node.texture_id; setParam.count = 6 * (int)runtime.active_num; setParam.ablend = num1; setParam.sortZ = num2; AppMain.amDrawPrimitive3D(runtime.ecb.drawState, setParam); } else { AppMain.NNS_PRIM3D_PC[] nnsPriM3DPcArray1 = AppMain.amDrawAlloc_NNS_PRIM3D_PC(6 * (int)runtime.active_num); int index = 0; AppMain.NNS_PRIM3D_PC[] nnsPriM3DPcArray2 = nnsPriM3DPcArray1; float num2 = 0.0f; for (; next != activeTail; next = next.next) { AppMain.AMS_AME_RUNTIME_WORK_PLANE runtimeWorkPlane = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)(AppMain.AMS_AME_RUNTIME_WORK) next; AppMain.amMatrixPush(); AppMain.NNS_MATRIX current = AppMain.amMatrixGetCurrent(); float x = runtimeWorkPlane.size.x; float y = runtimeWorkPlane.size.y; AppMain.amVectorAdd(ref snnsVector, runtimeWorkPlane.position, ref pDst); AppMain.NNS_QUATERNION rotate = runtimeWorkPlane.rotate; AppMain.amQuatMultiMatrix(ref rotate, ref snnsVector); runtimeWorkPlane.rotate = rotate; num2 = AppMain.nnDistanceVector(ref snnsVector, AppMain._am_ef_camPos); nnsPriM3DPcArray1[index].Pos.Assign(-x, y, 0.0f); nnsPriM3DPcArray1[index + 1].Pos.Assign(x, y, 0.0f); nnsPriM3DPcArray1[index + 2].Pos.Assign(-x, -y, 0.0f); nnsPriM3DPcArray1[index + 5].Pos.Assign(x, -y, 0.0f); AppMain.nnTransformVector(ref nnsPriM3DPcArray1[index].Pos, current, ref nnsPriM3DPcArray1[index].Pos); AppMain.nnTransformVector(ref nnsPriM3DPcArray1[index + 1].Pos, current, ref nnsPriM3DPcArray1[index + 1].Pos); AppMain.nnTransformVector(ref nnsPriM3DPcArray1[index + 2].Pos, current, ref nnsPriM3DPcArray1[index + 2].Pos); AppMain.nnTransformVector(ref nnsPriM3DPcArray1[index + 5].Pos, current, ref nnsPriM3DPcArray1[index + 5].Pos); nnsPriM3DPcArray1[index + 5].Col = AppMain.AMD_RGBA8888(runtimeWorkPlane.color.r, runtimeWorkPlane.color.g, runtimeWorkPlane.color.b, runtimeWorkPlane.color.a); nnsPriM3DPcArray1[index].Col = nnsPriM3DPcArray1[index + 1].Col = nnsPriM3DPcArray1[index + 2].Col = nnsPriM3DPcArray1[index + 5].Col; nnsPriM3DPcArray1[index + 3] = nnsPriM3DPcArray1[index + 1]; nnsPriM3DPcArray1[index + 4] = nnsPriM3DPcArray1[index + 2]; index += 6; AppMain.amMatrixPop(); } setParam.format3D = 2; setParam.type = 0; setParam.vtxPC3D = nnsPriM3DPcArray2; setParam.texlist = runtime.texlist; setParam.texId = -1; setParam.count = 6 * (int)runtime.active_num; setParam.ablend = num1; setParam.sortZ = num2; AppMain.amDrawPrimitive3D(runtime.ecb.drawState, setParam); } AppMain.GlobalPool <AppMain.AMS_PARAM_DRAW_PRIMITIVE> .Release(setParam); return(0); }
public static int _amUpdatePlane(object r) { AppMain.AMS_AME_RUNTIME runtime = (AppMain.AMS_AME_RUNTIME)r; AppMain.AMS_AME_NODE_PLANE node = (AppMain.AMS_AME_NODE_PLANE)runtime.node; AppMain.AMS_AME_LIST next = runtime.active_head.next; AppMain.AMS_AME_LIST activeTail = runtime.active_tail; int transparency = runtime.ecb.transparency; float num1; float num2; if ((double)node.life >= 0.0) { num1 = node.life; num2 = 1f / num1; } else { num1 = float.MaxValue; num2 = 0.0f; } float sizeRate = runtime.ecb.size_rate; float num3 = node.scale_x_start * sizeRate; float num4 = node.scale_y_start * sizeRate; float num5 = node.scale_x_end * sizeRate; float num6 = node.scale_y_end * sizeRate; AppMain.NNS_VECTOR4D amEffectVel = AppMain._amEffect_vel; AppMain.NNS_QUATERNION nnsQuaternion = new AppMain.NNS_QUATERNION(); AppMain.NNS_VECTOR4D pVec = new AppMain.NNS_VECTOR4D(); for (; next != activeTail; next = next.next) { AppMain.AMS_AME_RUNTIME_WORK_PLANE runtimeWorkPlane = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)(AppMain.AMS_AME_RUNTIME_WORK) next; runtimeWorkPlane.time += AppMain._am_unit_frame; float rate = runtimeWorkPlane.time * num2; AppMain.amVectorScale(amEffectVel, runtimeWorkPlane.velocity, AppMain._am_unit_time); AppMain.amVectorAdd(runtimeWorkPlane.position, amEffectVel); if ((double)runtimeWorkPlane.time >= (double)num1) { if (runtime.spawn_runtime != null) { AppMain._amCreateSpawnParticle(runtime, (AppMain.AMS_AME_RUNTIME_WORK)(AppMain.AMS_AME_LIST) runtimeWorkPlane); } AppMain.amEffectDisconnectLink((AppMain.AMS_AME_LIST)runtimeWorkPlane); --runtime.active_num; AppMain.amEffectFreeRuntimeWork((AppMain.AMS_AME_RUNTIME_WORK)(AppMain.AMS_AME_LIST) runtimeWorkPlane); } else { pVec.x = runtimeWorkPlane.rotate_axis.x; pVec.y = runtimeWorkPlane.rotate_axis.y; pVec.z = runtimeWorkPlane.rotate_axis.z; pVec.w = runtimeWorkPlane.rotate_axis.w; AppMain.amQuatRotAxisToQuat(ref nnsQuaternion, pVec, pVec.w * AppMain._am_unit_time); AppMain.NNS_QUATERNION rotate = runtimeWorkPlane.rotate; AppMain.amQuatMulti(ref rotate, ref nnsQuaternion, ref rotate); runtimeWorkPlane.rotate = rotate; float num7 = 1f - rate; float num8 = (float)((double)num3 * (double)num7 + (double)num5 * (double)rate); float num9 = (float)((double)num4 * (double)num7 + (double)num6 * (double)rate); runtimeWorkPlane.set_size(runtimeWorkPlane.size.z * num8, runtimeWorkPlane.size.z * num9, runtimeWorkPlane.size.z, runtimeWorkPlane.size.w); AppMain.AMS_RGBA8888 pCO; AppMain.amEffectLerpColor(out pCO, ref node.color_start, ref node.color_end, rate); pCO.a = (byte)((int)pCO.a * transparency >> 8); runtimeWorkPlane.set_color(pCO.color); if (((int)node.flag & 32768) != 0) { AppMain.AMS_AME_TEX_ANIM texAnim = node.tex_anim; if (((int)runtimeWorkPlane.flag & 2) == 0) { runtimeWorkPlane.tex_time += AppMain._am_unit_frame; if ((double)runtimeWorkPlane.tex_time >= (double)texAnim.key_buf[runtimeWorkPlane.tex_no].time) { runtimeWorkPlane.tex_time = 0.0f; ++runtimeWorkPlane.tex_no; if (runtimeWorkPlane.tex_no == texAnim.key_num) { if (((int)node.flag & 65536) != 0) { runtimeWorkPlane.tex_no = 0; } else { runtimeWorkPlane.tex_no = texAnim.key_num - 1; runtimeWorkPlane.flag |= 2U; } } } } AppMain.AMS_AME_TEX_ANIM_KEY amsAmeTexAnimKey = texAnim.key_buf[runtimeWorkPlane.tex_no]; runtimeWorkPlane.set_st(amsAmeTexAnimKey.l, amsAmeTexAnimKey.t, amsAmeTexAnimKey.r, amsAmeTexAnimKey.b); if (((int)runtimeWorkPlane.flag & 8) != 0) { runtimeWorkPlane.set_st(runtimeWorkPlane.st.z, runtimeWorkPlane.st.y, runtimeWorkPlane.st.x, runtimeWorkPlane.st.w); } if (((int)runtimeWorkPlane.flag & 16) != 0) { runtimeWorkPlane.set_st(runtimeWorkPlane.st.x, runtimeWorkPlane.st.w, runtimeWorkPlane.st.z, runtimeWorkPlane.st.y); } } else if (((int)node.flag & 16384) != 0) { float num10 = node.scroll_u * AppMain._am_unit_time; float num11 = node.scroll_v * AppMain._am_unit_time; if (((int)runtimeWorkPlane.flag & 8) != 0) { num10 = -num10; } if (((int)runtimeWorkPlane.flag & 16) != 0) { num11 = -num11; } runtimeWorkPlane.set_st(runtimeWorkPlane.st.x + num10, runtimeWorkPlane.st.y + num11, runtimeWorkPlane.st.z + num10, runtimeWorkPlane.st.w + num11); } } } //AppMain.GlobalPool<AppMain.NNS_VECTOR4D>.Release(pVec); return(0); }
public static int _amInitPlane(object p) { AppMain.AMS_AME_CREATE_PARAM amsAmeCreateParam = (AppMain.AMS_AME_CREATE_PARAM)p; AppMain.AMS_AME_NODE_PLANE node = (AppMain.AMS_AME_NODE_PLANE)amsAmeCreateParam.node; AppMain.AMS_AME_RUNTIME_WORK_PLANE work = (AppMain.AMS_AME_RUNTIME_WORK_PLANE)amsAmeCreateParam.work; work.time = -node.start_time; AppMain.AMS_RGBA8888 colorStart = node.color_start; work.set_color(colorStart.r, colorStart.g, colorStart.b, (byte)((int)colorStart.a * amsAmeCreateParam.ecb.transparency >> 8)); AppMain.amVectorAdd(work.position, amsAmeCreateParam.parent_position.Value, amsAmeCreateParam.position.Value); AppMain.amVectorAdd(work.position, node.translate); AppMain.amVectorScale(work.velocity, amsAmeCreateParam.parent_velocity.Value, node.inheritance_rate); AppMain.amVectorAdd(work.velocity, amsAmeCreateParam.velocity.Value); if (((int)node.flag & 4) != 0) { AppMain.NNS_VECTOR4D nnsVectoR4D = new AppMain.NNS_VECTOR4D(); float radian = (float)((double)AppMain.nnRandom() * 2.0 * 3.14159274101257); AppMain.amVectorRandom(nnsVectoR4D); AppMain.NNS_QUATERNION rotate = work.rotate; AppMain.amQuatRotAxisToQuat(ref rotate, nnsVectoR4D, radian); work.rotate = rotate; //AppMain.GlobalPool<AppMain.NNS_VECTOR4D>.Release(nnsVectoR4D); } else { work.rotate = node.rotate; } if (((int)node.flag & 8) != 0) { AppMain.NNS_VECTOR4D pDst = new AppMain.NNS_VECTOR4D(); AppMain.amVectorRandom(pDst); work.set_rotate_axis(pDst.x, pDst.y, pDst.z, node.rotate_axis.w); //AppMain.GlobalPool<AppMain.NNS_VECTOR4D>.Release(pDst); } else { work.rotate_axis.Assign(node.rotate_axis); } float z = node.size + node.size_chaos * AppMain.nnRandom(); work.set_size(z * node.scale_x_start, z * node.scale_y_start, z, 0.0f); if (((int)node.flag & 32768) != 0) { work.tex_time = 0.0f; work.tex_no = 0; if (((int)node.flag & 524288) != 0) { work.tex_no = (int)(100.0 * (double)AppMain.nnRandom()) % node.tex_anim.key_num; } AppMain.AMS_AME_TEX_ANIM_KEY amsAmeTexAnimKey = node.tex_anim.key_buf[work.tex_no]; work.set_st(amsAmeTexAnimKey.l, amsAmeTexAnimKey.t, amsAmeTexAnimKey.r, amsAmeTexAnimKey.b); } else if (((int)node.flag & 8192) != 0) { work.set_st(node.cropping_l, node.cropping_t, node.cropping_r, node.cropping_b); } else { work.set_st(0.0f, 0.0f, 1f, 1f); } if (((int)node.flag & 1048576) != 0 || ((int)node.flag & 131072) != 0 && (double)AppMain.nnRandom() > 0.5) { work.flag |= 8U; work.set_st(work.st.z, work.st.y, work.st.x, work.st.w); } if (((int)node.flag & 2097152) != 0 || ((int)node.flag & 262144) != 0 && (double)AppMain.nnRandom() > 0.5) { work.flag |= 16U; work.set_st(work.st.x, work.st.w, work.st.z, work.st.y); } return(0); }