一、Github地址:https://github.com/BayardM/Four-Fundamental-Operations
(本项目由鲍鱼铭3118004995 和 许铭楷3118005023共同结对完成)
二、效能分析
性能提升和效率提升主要体现在下图
在实现了1个运算符两个操作数的结果计算之后,原本是打算同样的思路进行2个,3个运算符的计算,但是做到一大半时感觉实在非常麻烦,开发效率及其低下!
便想到自己可以通过对操作数进行有限的变换来达到对更低层次的1个运算符函数的调用,换成这种嵌套调用之后减少了做运算的操作,也减少了底层对临时栈的调用,既提升了运行效率
也提升了开发效率!
三、设计实现过程(思路)
1-9需求均已实现
此处以流程图展示关键的实现各种算式结果生成的具体思路
(前两个流程图最后忘记加得出结果一栏。。)
至于随机生成算式则是分为随机操作数和随机操作符两部分,操作数调用随机数库函数,操作符通过随机数字0123对应+-*/随机生成。
四、关键部分代码
1.二元算式结果计算函数
1 function two_oper(op1, op2 , sel_oper1) 2 { 3 var result 4 var formula = [op1 , sel_oper1 , op2] 5 switch(sel_oper1) 6 { 7 case 0: 8 result = op1 + op2 9 break 10 case 1: 11 var high_op = op1>op2 ? op1 : op2 12 var low_op = op1<op2 ? op1 : op2 13 result = high_op - low_op 14 break 15 case 2: 16 result = op1 * op2 17 break 18 case 3: 19 if(op1%op2 != 0) 20 { 21 if(op1/op2 >= 1) 22 result = parseInt(op1/op2) + "'" + op1%op2 + '/' + op2 23 else result = op1 + '/' + op2 24 }else{ 25 result = op1 / op2 26 } 27 break 28 default:break 29 } 30 for (var j=0; j<3; j++) { 31 Formula[j] = formula[j] 32 } 33 return result 34 }
2.三元算式结果计算
1 function thr_oper(op1 , op2 , op3 , sel_oper1 , sel_oper2) 2 { 3 var formula = [op1 , sel_oper1 , op2 , sel_oper2 , op3] 4 var result 5 switch(sel_oper1) 6 { 7 case 0: 8 switch(sel_oper2) 9 { 10 case 0: 11 result = formula[0] + formula[2] + formula[4] 12 break 13 case 1: 14 var high_op = (formula[0]+formula[2])>formula[4] ? (formula[0]+formula[2]) : formula[4] 15 var low_op = (formula[0]+formula[2])<formula[4] ? (formula[0]+formula[2]) : formula[4] 16 result = two_oper(high_op , low_op , sel_oper2) 17 if(high_op == formula[4]) 18 { 19 formula[0] = op3 20 formula[4] = op1 21 formula[1] = sel_oper2 22 } 23 break 24 case 2: 25 result = formula[0] + (formula[2] * formula[4]) 26 break 27 case 3: 28 result = two_oper((formula[0]*formula[4]+formula[2]) , formula[4] , sel_oper2) 29 break 30 default:break 31 } 32 break 33 case 1: 34 switch(sel_oper2) 35 { 36 case 0: 37 var high_op = (formula[0]+formula[4])>formula[2] ? (formula[0]+formula[4]) : formula[2] 38 var low_op = (formula[0]+formula[4])<formula[2] ? (formula[0]+formula[4]) : formula[2] 39 result = two_oper(high_op , low_op , sel_oper1) 40 if(high_op == formula[2]) 41 { 42 formula[0] = op2 43 formula[2] = op1 44 formula[3] = sel_oper1 45 } 46 break 47 case 1: 48 var high_op = (formula[2]+formula[4])>formula[0] ? (formula[2]+formula[4]) : formula[0] 49 var low_op = (formula[2]+formula[4])<formula[0] ? (formula[2]+formula[4]) : formula[0] 50 result = two_oper(high_op , low_op , sel_oper2) 51 if(high_op == (formula[2]+formula[4])) 52 { 53 formula[0] = op3 54 formula[4] = op1 55 formula[1] = sel_oper2-1 56 } 57 break 58 case 2: 59 var high_op = (formula[2]*formula[4])>formula[0] ? formula[2]*formula[4] : formula[0] 60 var low_op = (formula[2]*formula[4])<formula[0] ? formula[2]*formula[4] : formula[0] 61 result = two_oper(high_op , low_op , sel_oper1) 62 if(high_op == (formula[2]*formula[4])) 63 { 64 formula[0] = op3 65 formula[4] = op1 66 formula[1] = 2 67 formula[3] = 1 68 } 69 break 70 case 3: 71 var high_op = (formula[0]*formula[4])>formula[2] ? formula[0]*formula[4] : formula[2] 72 var low_op = (formula[0]*formula[4])<formula[2] ? formula[0]*formula[4] : formula[2] 73 //0 74 result = two_oper((high_op-low_op) ,formula[4] , sel_oper2) 75 if(formula[2]> (formula[0]*formula[4])) 76 { 77 formula[0] = op2 78 formula[2] = op3 79 formula[4] = op1 80 formula[1] = sel_oper2 81 formula[3] = sel_oper1 82 } 83 break 84 default:break 85 } 86 break 87 case 2: 88 switch(sel_oper2) 89 { 90 case 0: 91 result = formula[0] * formula[2] + formula[4] 92 break 93 case 1: 94 result = two_oper((formula[0]*formula[2]) , formula[4] , sel_oper2) 95 if(formula[4]> (formula[0]*formula[2])) 96 { 97 formula[0] = op3 98 formula[4] = op1 99 formula[1] = sel_oper2 100 formula[3] = sel_oper1 101 } 102 break 103 case 2: 104 result = formula[0] * formula[2] * formula[4] 105 break 106 case 3: 107 result = two_oper((formula[0]*formula[2]) , formula[4] , sel_oper2) 108 break 109 default:break 110 } 111 break 112 case 3: 113 switch(sel_oper2) 114 { 115 case 0: 116 result = two_oper((formula[0]+formula[4]*formula[2]) , formula[2] , sel_oper1) 117 break 118 case 1: 119 var high_op = formula[0]>(formula[2]*formula[4]) ? formula[0] : (formula[2]*formula[4]) 120 var low_op = formula[0]<(formula[2]*formula[4]) ? formula[0] : (formula[2]*formula[4]) 121 result = two_oper((high_op-low_op) ,formula[2] , sel_oper1) 122 if((formula[2]*formula[4]) > formula[0]) 123 { 124 formula[0] = op3 125 formula[2] = op1 126 formula[4] = op2 127 formula[1] = sel_oper2 128 formula[3] = sel_oper1 129 } 130 break 131 case 2: 132 result = two_oper((formula[0]*formula[4]) , formula[2] , sel_oper1) 133 break 134 case 3: 135 result = two_oper(formula[0] , (formula[2]*formula[4]) , sel_oper1) 136 break 137 default:break 138 } 139 break 140 default: break 141 } 142 for (var j=0; j<5; j++) { 143 Formula[j] = formula[j] 144 } 145 return result 146 }
3.四元结果算式代码过长,暂不做展示
4.ffo函数----算式生成函数
1 function ffo(max){ 2 var op_gath = Math.floor(Math.random()*(3)+2) 3 var sel_oper1 = Math.floor(Math.random()*4) 4 var sel_oper2 = Math.floor(Math.random()*4) 5 var sel_oper3 = Math.floor(Math.random()*4) 6 var result 7 switch(op_gath) 8 { 9 case 2: 10 var op1 = Math.floor(Math.random()*(max)+1) 11 var op2 = Math.floor(Math.random()*(max)+1) 12 result = two_oper(op1 , op2 , sel_oper1) 13 if((sel_oper1 == 1)&&(op1 < op2)) 14 { 15 Formula[0] = op2 16 Formula[2] = op1 17 } 18 canswer[cindex] = result 19 cindex++ 20 myanswer[index] = '答案' + (index+1)+': '+result 21 index++ 22 Formula[0] = String(Formula[0]) 23 Formula[2] = String(Formula[2]) 24 Formula[1] = operator[Formula[1]] 25 for(var i=0; i<3; i++) 26 document.write(Formula[i]) 27 document.write('=' + '<input type="text" />' + '<br />') 28 break 29 case 3: 30 var op1 = Math.floor(Math.random()*(max)+1) 31 var op2 = Math.floor(Math.random()*(max)+1) 32 var op3 = Math.floor(Math.random()*(max)+1) 33 result = thr_oper(op1 , op2 , op3 , sel_oper1 , sel_oper2) 34 canswer[cindex] = result 35 cindex++ 36 myanswer[index] = '答案' + (index+1)+': '+result 37 index++ 38 Formula[0] = String(Formula[0]) 39 Formula[2] = String(Formula[2]) 40 Formula[4] = String(Formula[4]) 41 Formula[1] = operator[Formula[1]] 42 Formula[3] = operator[Formula[3]] 43 for(var i=0; i<5; i++) 44 document.write(Formula[i]) 45 document.write('=' + '<input type="text" />' + '<br />') 46 break 47 case 4: 48 var op1 = Math.floor(Math.random()*(max)+1) 49 var op2 = Math.floor(Math.random()*(max)+1) 50 var op3 = Math.floor(Math.random()*(max)+1) 51 var op4 = Math.floor(Math.random()*(max)+1) 52 result = four_oper(op1 , op2 , op3 , op4 , sel_oper1 , sel_oper2 , sel_oper3) 53 canswer[cindex] = result 54 cindex++ 55 myanswer[index] = '答案' + (index+1)+': '+result 56 index++ 57 Formula[0] = String(Formula[0]) 58 Formula[2] = String(Formula[2]) 59 Formula[4] = String(Formula[4]) 60 Formula[6] = String(Formula[6]) 61 Formula[1] = operator[Formula[1]] 62 Formula[3] = operator[Formula[3]] 63 Formula[5] = operator[Formula[5]] 64 for(var i=0; i<7; i++) 65 document.write(Formula[i]) 66 document.write('=' + '<input type="text" />' + '<br />') 67 break 68 default: break 69 } 70 }
5.检查对错功能函数
1 function checkanswer(){ 2 var right = new Array() 3 var wrong = new Array() 4 var r_index=0 5 var w_index=0 6 var num=0 7 var inputtag = document.getElementsByTagName('input') 8 for (var j=0;j<inputtag.length;j++) { 9 if(inputtag[j].value == "") continue 10 else break 11 } 12 if(j==inputtag.length) alert("请输入答案再检查") 13 else { 14 for (var i=0 ; i<inputtag.length ;i++) { 15 if(inputtag[i].value == canswer[i]) 16 { 17 right[r_index] = i+1 18 r_index++ 19 } 20 else { 21 wrong[w_index] = i+1 22 w_index++ 23 } 24 } 25 var show = ['correct:' + (right.length) + '(' , 'wrong:' + (wrong.length) + '(' , ')'] 26 exportRaw('check.txt' , show[0]+right+show[2]+show[1]+wrong+show[2]) 27 } 28 }
6.导出文件函数
1 function fakeClick(obj) { 2 var ev = document.createEvent("MouseEvents"); 3 ev.initMouseEvent("click", true, false, window, 0, 0, 0, 0, 0, false, false, false, false, 0, null); 4 obj.dispatchEvent(ev); 5 } 6 7 function exportRaw(name, data) { 8 var urlObject = window.URL || window.webkitURL || window; 9 var export_blob = new Blob([data]); 10 var save_link = document.createElementNS("http://www.w3.org/1999/xhtml", "a") 11 save_link.href = urlObject.createObjectURL(export_blob); 12 save_link.download = name; 13 fakeClick(save_link); 14 }
五、测试运行
1.定义题目数量
2.定义范围
3.10道题目生成,范围为10以内,答案txt
4.输入答案检查对错功能
5.10000道题目生成
六、PSP表格
|
PSP2.1 |
Personal Software Process Stages |
预估耗时(分钟) |
实际耗时(分钟) |
|
Planning |
计划 |
50 |
50 |
|
· Estimate |
· 估计这个任务需要多少时间 |
20 |
20 |
|
Development |
开发 |
180 |
220 |
|
· Analysis |
· 需求分析 (包括学习新技术) |
125 |
140 |
|
· Design Spec |
· 生成设计文档 |
40 |
30 |
|
· Design Review |
· 设计复审 (和同事审核设计文档) |
10 |
10 |
|
· Coding Standard |
· 代码规范 (为目前的开发制定合适的规范) |
5 |
5 |
|
· Design |
· 具体设计 |
120 |
100 |
|
· Coding |
· 具体编码 |
120 |
160 |
|
· Code Review |
· 代码复审 |
60 |
180 |
|
· Test |
· 测试(自我测试,修改代码,提交修改) |
120 |
350 |
|
Reporting |
报告 |
60 |
60 |
|
· Test Report |
· 测试报告 |
60 |
70 |
|
· Size Measurement |
· 计算工作量 |
10 |
10 |
|
· Postmortem & Process Improvement Plan |
· 事后总结, 并提出过程改进计划 |
20 |
45 |
|
合计 |
|
1000 |
1445 |
七、个人项目总结
许铭楷:
这次作业用js完成,因为我js掌握还不是很深,大部分功能都是同伴完成的,我主要负责代码的检测和改错。在合作的过程中同伴尽心尽力帮助我解决了很多问题,我也学习到了很多的新知识。总的来说,这次训练带给了我很多进步,让我充分感受到合作的重要性。
鲍鱼铭:
本次合作我承担的部分是具体编码和功能实现的部分,本以为自己做的不错可以减轻同伴负担,但是没想到交给同伴进行测试和debug的过程中竟然漏洞百出,幸好同伴细心检查,不断测试发现问题。问题主要呈现在减法不能存在负数与除法的真分数实现,在同伴的帮忙下自己很快得到改进。本次合作除了项目开发上的收获以外,更重要的是收获了与人合作的经历,深刻地明白了自己一个人做事总是会考虑不周全,也充分锻炼了以后到了真正工作时期与人沟通交流和接受意见的能力,收获颇丰!