代码搜索:纵向8点
找到约 737 项符合「纵向8点」的源代码
代码结果 737
www.eeworm.com/read/298315/3868802
txt 37.txt
台湾传统住宅沿续闽粤建筑风格,「一条龙」为最基本的格局,而左右对称的合院则为最常见的类型。但随著人口增多及社会地位的不同,格局会呈纵向或横向的增建发展。
www.eeworm.com/read/193136/8251076
h gui_manager.h
/* gui_manager.h */
/*
图形界面管理器,负责管理图形界面的视野 各个图层的纵向的位置
*/
#ifndef GUI_MANAGER_H
#define GUI_MANAGER_H
#include "gui_layer.h"
class GUI_Manager
{
public:
GUI_Manager();
virtual ~GUI_Manag
www.eeworm.com/read/401606/11554710
m earthquakepredisposal.m
% 输入地震波横波数据
load transverse.dat;
% 输入横波与截面主轴的夹角
angle=input('Please input the angle between earthquake and axis: ');
% 角度转化为弧度
angle1=angle*pi/180;
% 根据角度将横波沿主轴分解为纵向波与横向波
Longitude=cos(an
www.eeworm.com/read/260279/11735007
h paramers.h
#define MAX_X 20 //横向最大方块数
#define MAX_Y 20 //纵向最大方块数
#define PANE_LEN 15 //方块边长
#define TIME 200 //初始时间间隔
#define MAX_SNAKE_LEN 13 //过关蛇身长度
#define START_LEN 3 //初始蛇身长度
www.eeworm.com/read/256057/12031529
txt sample.txt
模型参数:
横向:
长度:500m 起始坐标:0.0 网格间距:1m
纵向:
长度:500m 起始坐标:0.0 网格间距:1m
第一层: 0 -150m 速度 2500/s
第二层: 150-300m 速度 3000/s
www.eeworm.com/read/241421/13145107
c main.c
#include "myincludes.h"
#include "og.h"
#include "at45db041.h"
#define UINT8 unsigned char
unsigned char V_A[]=
{//纵向直线
/*-- 调入了一幅图像:E:\电子设计\液晶字模软件\液晶字模提取软件\图例\未标题-1.bmp --*/
/*-- 宽度x高度=8x
www.eeworm.com/read/488582/6489834
asv local_max_mode.asv
%求纵向细节v和横行细节h的合成及模极大值
function [out1,out2] = local_max_mode(v,h,thr,a0,n);
[row,col] =size(v);
for irow=1:row
for jcol=1:col
mf(irow,jcol) = sqrt(v(irow,jcol)^2 + h(irow,jcol)^2);
www.eeworm.com/read/488582/6489839
m local_max_mode.m
%求纵向细节v和横行细节h的合成及模极大值
function [out1,out2] = local_max_mode(v,h,thr,a0,n);
[row,col] =size(v);
for irow=1:row
for jcol=1:col
mf(irow,jcol) = sqrt(v(irow,jcol)^2 + h(irow,jcol)^2);
www.eeworm.com/read/346489/11741680
m local_max_mode.m
%求纵向细节v和横行细节h的合成及模极大值
function [out1,out2] = local_max_mode(v,h,thr,a0,n);
[row,col] =size(v);
for irow=1:row
for jcol=1:col
mf(irow,jcol) = sqrt(v(irow,jcol)^2 + h(irow,jcol)^2);
www.eeworm.com/read/293177/8311376
m local_max_mode.m
%求纵向细节v和横行细节h的合成及模极大值
function [out1,out2] = local_max_mode(v,h,thr,a0,n);
[row,col] =size(v);
for irow=1:row
for jcol=1:col
mf(irow,jcol) = sqrt(v(irow,jcol)^2 + h(irow,jcol)^2);