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---
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language: coldfusion
filename: learncoldfusion.cfm
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contributors:
- ["Wayne Boka", "http://wboka.github.io"]
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- ["Kevin Morris", "https://twitter.com/kevinmorris"]
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---
ColdFusion is a scripting language for web development.
[Read more here. ](http://www.adobe.com/products/coldfusion-family.html )
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### CFML
_**C**old**F**usion **M**arkup **L**anguage_
ColdFusion started as a tag-based language. Almost all functionality is available using tags.
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```cfm
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< em > HTML tags have been provided for output readability< / em >
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<!-- - Comments start with "<! - - - " and end with " - --> " --->
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<!-- -
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Comments can
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also
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span
multiple lines
--->
<!-- - CFML tags have a similar format to HTML tags. - -->
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< h1 > Simple Variables< / h1 >
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<!-- - Variable Declaration: Variables are loosely typed, similar to javascript - -->
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< p > Set < b > myVariable< / b > to "myValue"< / p >
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< cfset myVariable = "myValue" / >
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< p > Set < b > myNumber< / b > to 3.14< / p >
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< cfset myNumber = 3.14 / >
<!-- - Displaying simple data - -->
<!-- - Use <cfoutput> for simple values such as strings, numbers, and expressions - -->
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< p > Display < b > myVariable< / b > : < cfoutput > #myVariable#< / cfoutput > < / p > <!-- - myValue - -->
< p > Display < b > myNumber< / b > : < cfoutput > #myNumber#< / cfoutput > < / p > <!-- - 3.14 - -->
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< hr / >
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< h1 > Complex Variables< / h1 >
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<!-- - Declaring complex variables - -->
<!-- - Declaring an array of 1 dimension: literal or bracket notation - -->
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< p > Set < b > myArray1< / b > to an array of 1 dimension using literal or bracket notation< / p >
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< cfset myArray1 = [] / >
<!-- - Declaring an array of 1 dimension: function notation - -->
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< p > Set < b > myArray2< / b > to an array of 1 dimension using function notation< / p >
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< cfset myArray2 = ArrayNew(1) / >
<!-- - Outputting complex variables - -->
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< p > Contents of < b > myArray1< / b > < / p >
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< cfdump var = "#myArray1#" / > <!-- - An empty array object - -->
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< p > Contents of < b > myArray2< / b > < / p >
< cfdump var = "#myArray2#" / > <!-- - An empty array object - -->
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<!-- - Operators - -->
<!-- - Arithmetic - -->
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< h1 > Operators< / h1 >
< h2 > Arithmetic< / h2 >
< p > 1 + 1 = < cfoutput > #1 + 1#< / cfoutput > < / p >
< p > 10 - 7 = < cfoutput > #10 - 7#< br / > < / cfoutput > < / p >
< p > 15 * 10 = <cfoutput>#15 * 10#< br /></ cfoutput ></ p >
< p > 100 / 5 = < cfoutput > #100 / 5#< br / > < / cfoutput > < / p >
< p > 120 % 5 = < cfoutput > #120 % 5#< br / > < / cfoutput > < / p >
< p > 120 mod 5 = < cfoutput > #120 mod 5#< br / > < / cfoutput > < / p >
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< hr / >
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<!-- - Comparison - -->
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< h2 > Comparison< / h2 >
< h3 > Standard Notation< / h3 >
< p > Is 1 eq 1? < cfoutput > #1 eq 1#< / cfoutput > < / p >
< p > Is 15 neq 1? < cfoutput > #15 neq 1#< / cfoutput > < / p >
< p > Is 10 gt 8? < cfoutput > #10 gt 8#< / cfoutput > < / p >
< p > Is 1 lt 2? < cfoutput > #1 lt 2#< / cfoutput > < / p >
< p > Is 10 gte 5? < cfoutput > #10 gte 5#< / cfoutput > < / p >
< p > Is 1 lte 5? < cfoutput > #1 lte 5#< / cfoutput > < / p >
< h3 > Alternative Notation< / h3 >
< p > Is 1 == 1? < cfoutput > #1 eq 1#< / cfoutput > < / p >
< p > Is 15 != 1? < cfoutput > #15 neq 1#< / cfoutput > < / p >
< p > Is 10 > 8? < cfoutput > #10 gt 8#< / cfoutput > < / p >
< p > Is 1 < 2 ? < cfoutput > #1 lt 2#< / cfoutput > < / p >
< p > Is 10 >= 5? < cfoutput > #10 gte 5#< / cfoutput > < / p >
< p > Is 1 < = 5? < cfoutput > #1 lte 5#< / cfoutput > < / p >
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< hr / >
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<!-- - Control Structures - -->
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< h1 > Control Structures< / h1 >
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< cfset myCondition = "Test" / >
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< p > Condition to test for: "< cfoutput > #myCondition#< / cfoutput > "< / p >
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< cfif myCondition eq " Test " >
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< cfoutput > #myCondition#. We're testing.< / cfoutput >
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< cfelseif myCondition eq " Production " >
< cfoutput > #myCondition#. Proceed Carefully!!!< / cfoutput >
< cfelse >
myCondition is unknown
< / cfif >
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< hr / >
<!-- - Loops - -->
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< h1 > Loops< / h1 >
< h2 > For Loop< / h2 >
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< cfloop from = "0" to = "10" index = "i" >
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< p > Index equals < cfoutput > #i#< / cfoutput > < / p >
< / cfloop >
< h2 > For Each Loop (Complex Variables)< / h2 >
< p > Set < b > myArray3< / b > to [5, 15, 99, 45, 100]< / p >
< cfset myArray3 = [5, 15 , 99 , 45 , 100 ] / >
< cfloop array = "#myArray3#" index = "i" >
< p > Index equals < cfoutput > #i#< / cfoutput > < / p >
< / cfloop >
< p > Set < b > myArray4< / b > to ["Alpha", "Bravo", "Charlie", "Delta", "Echo"]< / p >
< cfset myArray4 = ["Alpha", " Bravo " , " Charlie " , " Delta " , " Echo " ] / >
< cfloop array = "#myArray4#" index = "s" >
< p > Index equals < cfoutput > #s#< / cfoutput > < / p >
< / cfloop >
< h2 > Switch Statement< / h2 >
< p > Set < b > myArray5< / b > to [5, 15, 99, 45, 100]< / p >
< cfset myArray5 = [5, 15 , 99 , 45 , 100 ] / >
< cfloop array = "#myArray5#" index = "i" >
< cfswitch expression = "#i#" >
< cfcase value = "5,15,45" delimiters = "," >
< p > < cfoutput > #i#< / cfoutput > is a multiple of 5.< / p >
< / cfcase >
< cfcase value = "99" >
< p > < cfoutput > #i#< / cfoutput > is ninety-nine.< / p >
< / cfcase >
< cfdefaultcase >
< p > < cfoutput > #i#< / cfoutput > is not 5, 15, 45, or 99.< / p >
< / cfdefaultcase >
< / cfswitch >
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< / cfloop >
< hr / >
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< h1 > Converting types< / h1 >
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< style >
table.table th, table.table td {
border: 1px solid #000000 ;
padding: 2px;
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}
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table.table th {
background-color: #CCCCCC ;
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}
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< / style >
< table class = "table" cellspacing = "0" >
< thead >
< tr >
< th > Value< / th >
< th > As Boolean< / th >
< th > As number< / th >
< th > As date-time< / th >
< th > As string< / th >
< / tr >
< / thead >
< tbody >
< tr >
< th > "Yes"< / th >
< td > TRUE< / td >
< td > 1< / td >
< td > Error< / td >
< td > "Yes"< / td >
< / tr >
< tr >
< th > "No"< / th >
< td > FALSE< / td >
< td > 0< / td >
< td > Error< / td >
< td > "No"< / td >
< / tr >
< tr >
< th > TRUE< / th >
< td > TRUE< / td >
< td > 1< / td >
< td > Error< / td >
< td > "Yes"< / td >
< / tr >
< tr >
< th > FALSE< / th >
< td > FALSE< / td >
< td > 0< / td >
< td > Error< / td >
< td > "No"< / td >
< / tr >
< tr >
< th > Number< / th >
< td > True if Number is not 0; False otherwise.< / td >
< td > Number< / td >
< td > See " Date-time values" earlier in this chapter.< / td >
< td > String representation of the number (for example, " 8" ).< / td >
< / tr >
< tr >
< th > String< / th >
< td > If "Yes", True < br > If "No", False < br > If it can be converted to 0, False < br > If it can be converted to any other number, True< / td >
< td > If it represents a number (for example, " 1,000" or " 12.36E-12" ), it is converted to the corresponding number.< / td >
< td > If it represents a date-time (see next column), it is converted to the numeric value of the corresponding date-time object. < br > If it is an ODBC date, time, or timestamp (for example " {ts ' 2001-06-14 11:30:13' }" , or if it is expressed in a standard U.S. date or time format, including the use of full or abbreviated month names, it is converted to the corresponding date-time value. < br > Days of the week or unusual punctuation result in an error. < br > Dashes, forward-slashes, and spaces are generally allowed.< / td >
< td > String< / td >
< / tr >
< tr >
< th > Date< / th >
< td > Error< / td >
< td > The numeric value of the date-time object.< / td >
< td > Date< / td >
< td > An ODBC timestamp.< / td >
< / tr >
< / tbody >
< / table >
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< hr / >
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< h1 > Components< / h1 >
< em > Code for reference (Functions must return something to support IE)< / em >
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```
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```cfs
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< cfcomponent >
< cfset this . hello = "Hello" / >
< cfset this . world = "world" / >
< cffunction name = "sayHello" >
< cfreturn this . hello & " , " & this . world & " ! " / >
< / cffunction >
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< cffunction name = "setHello" >
< cfargument name = "newHello" type = "string" required = "true" / >
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< cfset this . hello = arguments.newHello / >
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< cfreturn true / >
< / cffunction >
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< cffunction name = "setWorld" >
< cfargument name = "newWorld" type = "string" required = "true" / >
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< cfset this . world = arguments.newWorld / >
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< cfreturn true / >
< / cffunction >
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< cffunction name = "getHello" >
< cfreturn this . hello / >
< / cffunction >
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< cffunction name = "getWorld" >
< cfreturn this . world / >
< / cffunction >
< / cfcomponent >
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< cfset this . hello = "Hello" / >
< cfset this . world = "world" / >
< cffunction name = "sayHello" >
< cfreturn this . hello & " , " & this . world & " ! " / >
< / cffunction >
< cffunction name = "setHello" >
< cfargument name = "newHello" type = "string" required = "true" / >
< cfset this . hello = arguments.newHello / >
< cfreturn true / >
< / cffunction >
< cffunction name = "setWorld" >
< cfargument name = "newWorld" type = "string" required = "true" / >
< cfset this . world = arguments.newWorld / >
< cfreturn true / >
< / cffunction >
< cffunction name = "getHello" >
< cfreturn this . hello / >
< / cffunction >
< cffunction name = "getWorld" >
< cfreturn this . world / >
< / cffunction >
< b > sayHello()< / b >
< cfoutput > < p > #sayHello()#< / p > < / cfoutput >
< b > getHello()< / b >
< cfoutput > < p > #getHello()#< / p > < / cfoutput >
< b > getWorld()< / b >
< cfoutput > < p > #getWorld()#< / p > < / cfoutput >
< b > setHello("Hola")< / b >
< cfoutput > < p > #setHello("Hola")#< / p > < / cfoutput >
< b > setWorld("mundo")< / b >
< cfoutput > < p > #setWorld("mundo")#< / p > < / cfoutput >
< b > sayHello()< / b >
< cfoutput > < p > #sayHello()#< / p > < / cfoutput >
< b > getHello()< / b >
< cfoutput > < p > #getHello()#< / p > < / cfoutput >
< b > getWorld()< / b >
< cfoutput > < p > #getWorld()#< / p > < / cfoutput >
```
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### CFScript
_**C**old**F**usion **S**cript_
In recent years, the ColdFusion language has added script syntax to mirror tag functionality. When using an up-to-date CF server, almost all functionality is available using scrypt syntax.
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## Further Reading
The links provided here below are just to get an understanding of the topic, feel free to Google and find specific examples.
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1. [Coldfusion Reference From Adobe ](https://helpx.adobe.com/coldfusion/cfml-reference/topics.html )
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2. [Open Source Documentation ](http://cfdocs.org/ )