[12] 扇形体(Fan)图形的生成算法
2024-10-19 00:36:41
顶点数据的生成
bool YfBuildFunVertices
(
Yreal radius,
Yreal degree,
Yreal height,
Yuint slices,
YeOriginPose originPose,
Yuint vertexStriding,
Yuint vertexPos,
void* pVerticesBuffer
)
{
if (degree < || degree > || !pVerticesBuffer)
{
return false;
}
if (slices < || !pVerticesBuffer)
{
return false;
} Yuint numVertices = (slices + ) * ; char* vertexPtr = (char*)pVerticesBuffer + vertexPos;
YsVector3* curVertexPtr = NULL;
Yuint nOffset = ; Yreal originOffsetY = 0.0f;
if (originPose == YE_ORIGIN_POSE_TOP)
{
originOffsetY = -height;
}
else if (originPose == YE_ORIGIN_POSE_CENTER)
{
originOffsetY = -height * 0.5f;
} // 柱顶顶点赋值
{
nOffset = ;
curVertexPtr = (YsVector3*)(vertexPtr + nOffset);
curVertexPtr->x = 0.0f;
curVertexPtr->y = height + originOffsetY;
curVertexPtr->z = 0.0f;
} // 柱底顶点赋值
{
nOffset = (numVertices - ) * vertexStriding;
curVertexPtr = (YsVector3*)(vertexPtr + nOffset);
curVertexPtr->x = 0.0f;
curVertexPtr->y = originOffsetY;
curVertexPtr->z = 0.0f;
} Yreal radian = YD_DEGREE_TO_RADIAN(degree);
Yreal angleXZ;
Yreal posX, posZ;
for (Yuint i = ; i < slices; i++)
{
angleXZ = radian * i / (slices - );
posX = yf_sin(angleXZ);
posZ = yf_cos(angleXZ); // 上顶点
{
nOffset = ( + i) * vertexStriding;
curVertexPtr = (YsVector3*)(vertexPtr + nOffset);
curVertexPtr->x = radius * posX;
curVertexPtr->y = height + originOffsetY;
curVertexPtr->z = radius * posZ;
} // 下顶点
{
nOffset = ( + slices + i) * vertexStriding;
curVertexPtr = (YsVector3*)(vertexPtr + nOffset);
curVertexPtr->x = radius * posX;
curVertexPtr->y = originOffsetY;
curVertexPtr->z = radius * posZ;
}
} return true;
}
三角形索引数据的生成
bool YfBuildFunTriIndices
(
Yuint slices,
YeIndexType indexType,
Yuint indexStriding,
Yuint indexPos,
void* pTriIndicesBuffer
)
{
if (slices < || !pTriIndicesBuffer)
{
return false;
} Yuint numVertices = (slices + ) * ;
Yuint numTriangles = slices * ;
if (indexType == YE_INDEX_16_BIT &&
numVertices > YD_MAX_UNSIGNED_INT16)
{
return false;
} // 索引赋值
char* indexPtr = (char*)pTriIndicesBuffer + indexPos;
Yuint nOffset = ;
if (indexType == YE_INDEX_16_BIT)
{
YsTriIndex16* triIndexPtr = NULL;
for (Yuint i = ; i < slices - ; i++)
{
nOffset = (i * ) * indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = + i;
triIndexPtr->index2 = + i + ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = numVertices - ;
triIndexPtr->index1 = + slices + i + ;
triIndexPtr->index2 = + slices + i; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = + i;
triIndexPtr->index1 = + slices + i;
triIndexPtr->index2 = + i + ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = + i + ;
triIndexPtr->index1 = + slices + i;
triIndexPtr->index2 = + slices + i + ;
} nOffset = ((slices - ) * ) * indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = + slices; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = slices;
triIndexPtr->index2 = numVertices - ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex16*)(indexPtr + nOffset);
triIndexPtr->index0 = slices;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = numVertices - ;
}
else
{
YsTriIndex32* triIndexPtr = NULL;
for (Yuint i = ; i < slices - ; i++)
{
nOffset = (i * ) * indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = + i;
triIndexPtr->index2 = + i + ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = numVertices - ;
triIndexPtr->index1 = + slices + i + ;
triIndexPtr->index2 = + slices + i; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = + i;
triIndexPtr->index1 = + slices + i;
triIndexPtr->index2 = + i + ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = + i + ;
triIndexPtr->index1 = + slices + i;
triIndexPtr->index2 = + slices + i + ;
} nOffset = ((slices - ) * ) * indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = + slices; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = ;
triIndexPtr->index1 = slices;
triIndexPtr->index2 = numVertices - ; nOffset += indexStriding;
triIndexPtr = (YsTriIndex32*)(indexPtr + nOffset);
triIndexPtr->index0 = slices;
triIndexPtr->index1 = numVertices - ;
triIndexPtr->index2 = numVertices - ;
} return true;
}
线框索引数据的生成
bool YfBuildFunWireIndices
(
Yuint slices,
YeIndexType indexType,
Yuint indexStriding,
Yuint indexPos,
void* pWireIndicesBuffer
)
{
if (slices < || !pWireIndicesBuffer)
{
return false;
} Yuint numVertices = (slices + ) * ;
Yuint numLines = slices + (slices-) * + ;
if (indexType == YE_INDEX_16_BIT &&
numVertices > YD_MAX_UNSIGNED_INT16)
{
return false;
} // 索引赋值
char* indexPtr = (char*)pWireIndicesBuffer + indexPos;
Yuint nOffset = ;
if (indexType == YE_INDEX_16_BIT)
{
YsLineIndex16* lineIndexPtr = NULL;
for (Yuint i = ; i < slices - ; i++)
{
nOffset = (i * ) * indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = + i;
lineIndexPtr->index1 = + slices + i; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = + i;
lineIndexPtr->index1 = + i + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = + slices + i;
lineIndexPtr->index1 = + slices + i + ;
} nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = slices;
lineIndexPtr->index1 = *slices; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = *slices + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = slices; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = *slices + ;
lineIndexPtr->index1 = slices + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex16*)(indexPtr + nOffset);
lineIndexPtr->index0 = *slices + ;
lineIndexPtr->index1 = *slices;
}
else
{
YsLineIndex32* lineIndexPtr = NULL;
for (Yuint i= ; i < slices; i++)
{
YsLineIndex32* lineIndexPtr = NULL;
for (Yuint i = ; i < slices - ; i++)
{
nOffset = (i * ) * indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = + i;
lineIndexPtr->index1 = + slices + i; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = + i;
lineIndexPtr->index1 = + i + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = + slices + i;
lineIndexPtr->index1 = + slices + i + ;
} nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = slices;
lineIndexPtr->index1 = *slices; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = *slices + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = ;
lineIndexPtr->index1 = slices; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = *slices + ;
lineIndexPtr->index1 = slices + ; nOffset += indexStriding;
lineIndexPtr = (YsLineIndex32*)(indexPtr + nOffset);
lineIndexPtr->index0 = *slices + ;
lineIndexPtr->index1 = *slices;
}
} return true;
}
最新文章
- Python标准模块--Iterators和Generators
- jQuery Ajax传值给Servlet,在Servlet里Get接受参数乱码的解决方法
- 多线程之互斥锁(By C++)
- Python标准异常topic
- μC/OS-Ⅲ系统的源代码文件组织结构
- Java经典实例:使用ChoiceFormat来格式化复数
- PAT 10-0 说反话
- homework-10
- C#修改 Excel指定单元格的值
- python10min系列之面试题解析:python实现tail -f功能
- 每天一个Linux命令 1
- jenkins 构建完毕后接着构建另外一个构建的方法
- Delphi数据库技术中Disablecontrols和Enablecontrols的功能
- svg(一)
- spket插件安装并设置JQuery自动提示(转)
- C#实现RSA加密与解密、签名与认证
- postman-记录cookies信息
- 【第十周】final预发布视频
- poj 3164 Command Network(最小树形图模板)
- 对于"第一次创业者"应该给什么样的建议
热门文章
- Bootstrap--响应式导航条布局
- 20169211《linux内核原理与分析》第七周作业
- 牛客练习赛2 A - Contest
- spring websocket集群问题的简单记录
- Python网络编程之socket应用
- 【原创】MHA对MySQL master Too many connections错误的处理机制
- JAVAEE——宜立方商城03:商品类目选择、Nginx端口或域名区分虚拟机、Nginx反向代理、负载均衡、keepalived实现高可用
- golang make()的第三个参数
- ERROR 2002 (HY000): Can't connect to local MySQL server through socket '/tmp/mysql.sock' (2)
- vijos p1876 bfs+map