5. matlab入门——图形标注、特殊绘图、三维绘图
1、图形标注
(1)图形标题
title(标题)
title(标题,属性名,属性值)
%% 图形标注 x = 0:0.11:2*pi; y = sin(x); plot(x,y); title(\'y=sin(x)示范\',\'color\',\'r\');
(2)坐标轴标签
xlabel(标签,属性名,属性值)
ylabel(标签,属性名,属性值)
%% 坐标轴标签 x = 0:0.11:2*pi; y = sin(x); plot(x,y); xlabel(\'X轴数据示范\',\'color\',\'r\',\'fontsize\',12); ylabel(\'Y轴数据示范\',\'color\',\'b\',\'fontsize\',12); title(\'y=sin(x)示范\',\'color\',\'r\');
(3)图例
legend(图例说明)
%% 图例 x = 0:0.11:2*pi; y1 = sin(x); y2 = cos(x); y3 = sin(x)+cos(x); plot(x,[y1;y2;y3]); legend(\'sin(x)\',\'cos(x)\',\'sin(x)+cos(x)\');
2、特殊绘图
(1)柱状图bar
bar(y)
bar(x,y)
barh(x,y)
bar(y,\’stacked\’) 堆积图
%% 柱状图 y = rand(5,3); bar(y,0.5)
%% 柱状图 x = 101:110; y = rand(1,10); bar(x,y); y = rand(4,3); % bar(y,\'stacked\'); % 横向 barh(y,\'stacked\'); % 纵向
(2)面积图
area(y)
area(y,属性名称,属性值)
%% 面积图 y = rand(6,8); % area(y); area(y,\'linestyle\',\'--\');
(3)饼图pie
pie(数据)
数据和超过1,自动计算百分比;
数据和不超过1,直接绘制,其余部分空缺。
%% 饼图 a = [1,3,4,5,6,7,8]; subplot(1,2,1);pie(a); b = [0.1,0.3,0.4]; subplot(1,2,2);pie(b);
(4)直方图hist
hist(数据)
hist(数据,分组个数)
hist(数据,X轴划分情况)
%% 直方图 a = [1,3,4,1,6,4,4,7,3,9,6,1]; subplot(2,2,1);hist(a); subplot(2,2,2);hist(a,[1,3,5,7,10]); x = 0:0.1:2*pi; y = sin(x); subplot(2,2,3);hist(y,50);
3、三维绘图
(1)三维曲线plot3
plot3(x,y,z)
%% 三维曲线 x = 0:0.1:10*pi; y = sin(x); z = cos(x); plot3(x,y,z);
(2)三维曲线之矩形网格
[X,Y] = meshgrid(x,y)
%% 三维曲线之矩形网格 x = -2:0.5:2; y = -2:0.5:2; [X,Y] = meshgrid(x,y); % [X,Y] = meshgrid(-2:0.5:2); % x,y一致的情况 plot(X,Y,\'O-\');
(3)三维曲面之mesh网格图
mesh(x,y,z)
%% 三维曲面之mesh网格图 [X1,Y1] = meshgrid(-2:0.5:2); Z1 = ones(size(X)); subplot(2,2,1);mesh(X1,Y1,Z1); [X2,Y2] = meshgrid(-8:0.1:8); Z2 = sin(X2); subplot(2,2,2);mesh(X2,Y2,Z2); [X3,Y3] = meshgrid(-8:0.1:8); Z3 = cos(Y3); subplot(2,2,3);mesh(X3,Y3,Z3); [X4,Y4] = meshgrid(-8:0.1:8); Z4 = sin(X4)+cos(Y4); subplot(2,2,4);mesh(X4,Y4,Z4);
(4)三维曲面之表面图surf
surf(x,y,z)
%% 三维曲面 [X1,Y1] = meshgrid(-2:0.5:2); Z1 = ones(size(X)); subplot(2,2,1);surf(X1,Y1,Z1); [X2,Y2] = meshgrid(-10:0.6:10); Z2 = sqrt(X2.^2+Y2.^2); subplot(2,2,2);surf(X2,Y2,Z2); [X3,Y3] = meshgrid(-8:0.5:8); R = sqrt(X3.^2+Y3.^2); Z3 = sin(R)./R; subplot(2,2,3);surf(X3,Y3,Z3);