hcl/t/insta-02.hcl

set t (
	class [ x ] {
		defun :* make() { x := 1234; return self; };
		defun get-x() { return x };
	}
);

set X t;

if (nqv? t X) { printf "ERROR: t must point to X\n" } \
else { printf "OK: t points to X\n" };

set t ((t:make):get-x);

if (nqv? t 1234) { printf "ERROR: t must be 1234\n" } \
else { printf "OK: t is %d\n" t };


j := #{ ((X:make):get-x): 9999, 4512: ((X: make): get-x) };
v := (dic.get j 1234);
if (nqv? v 9999) { printf "ERROR: v is not 9999\n" } \
else {  printf "OK:  value is %d\n" v };

v := (dic.get j 4512);
if (nqv? v 1234) { printf "ERROR: v is not 1234\n" } \
else { printf "OK:  value is %d\n" v };

## --------------------------------------------------------------

class X [ a b c d ] {
        fun :*new() {
                return self;
        }

        fun x() {
		a := 20 ; self.b:=(a + 10); c := (b + 20)
		printf "%d %d %d\n" self.a self.b self.c
		return (+ self.a self.b self.c)
        }
	fun y() {
		self.d := (fun(k) {
			return (k + 1)
		})
		return self.d
	}

}; a := (X:new); v := (a:x)
if (nqv? v 100) { printf "ERROR: v is not 100\n" } \
else { printf "OK:  value is %d\n" v }

v := ((a:y) 20);
if (nqv? v 21) { printf "ERROR: v is not 21\n" } \
else { printf "OK:  value is %d\n" v }

## --------------------------------------------------------------

class F [ j t ] {
}

class X [ a  b c ] {
	fun :* new () {
		self.a := 20
		return self
	}

	fun getA() { return self.a }

	fun make(t a b) {
		| v |
		v := 50
		if (t > 5) {
			fun X:get_j() { return (((1 + t) + a) + (b + v)) }
		} else {
			fun X:get_j() { return ((2 * (t + a)) + (b + v)) }
		}
		return self
	}
}

fun X:get_a() {
	return (self:getA)
}

v := ((X:new):get_a)
if (nqv? v 20) { printf "ERROR: v is not 20 - %d\n" v } \
else { printf "OK:  value is %d\n" v }

v := (((X:new):make 5 6 7):get_j)
if (nqv? v 79) { printf "ERROR: v is not 79 - %d\n" v } \
else { printf "OK:  value is %d\n" v }

v := (((X:new):make 6 6 7):get_j)
if (nqv? v 70) { printf "ERROR: v is not 70 - %d\n" v } \
else { printf "OK:  value is %d\n" v }

## --------------------------------------------------------------

class F [ j t ] {
}

class X [ a b c ] {
	fun :* new () {
		| j |
		self.a := 20
		j := (self.a  * 2)
		fun F::get_x() { return (j * j) }
		return self
	}
}

X:new
v := (F:get_x)
if (nqv? v 1600) { printf "ERROR: v is not 1600 - %d\n" v } \
else { printf "OK: value is %d\n" v }

## --------------------------------------------------------------
class X {
	fun :* new (a b) {
		fun X:sum() { return (fun(j) { return (j + (a + b)) }) }
		return self;
	}
}

v := (((X:new 10 2):sum) 23)
if (nqv? v 35) { printf "ERROR: v is not 35 - %d\n" v } \
else { printf "OK: value is %d\n" v }

## --------------------------------------------------------------
class X {
	fun :: t() {
		| X |
		class X { ## this X isn't the local variable X
			fun :: t() {
				X := (class {
					fun :: t() {
						| X |
						X := (class { ## this X is the local variable X
							fun :: t() { return 60 }
						})
						return 40
					}
				})
				return 20;
			}
		}
		return 30
	}
}

v := (X:t)
if (nqv? v 30) { printf "ERROR: v is not 30 - %d\n" v } \
else { printf "OK: value is %d\n" v }

v := (X:t)
if (nqv? v 20) { printf "ERROR: v is not 20 - %d\n" v } \
else { printf "OK: value is %d\n" v }

v := (X:t)
if (nqv? v 40) { printf "ERROR: v is not 40 - %d\n" v } \
else { printf "OK: value is %d\n" v }

v := (X:t)
if (nqv? v 40) { printf "ERROR: v is not 40 - %d\n" v } \
else { printf "OK: value is %d\n" v }
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`set t (`
changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class [ x ] {`
enhanced the test runner for errors to support multiple scripts in a single file 2024-02-04 17:43:50 +00:00			`defun :* make() { x := 1234; return self; };`
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`defun get-x() { return x };`
			`}`
			`);`

			`set X t;`

added line-break escaping 2024-01-18 14:55:50 +00:00			`if (nqv? t X) { printf "ERROR: t must point to X\n" } \`
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`else { printf "OK: t points to X\n" };`

			`set t ((t:make):get-x);`

added line-break escaping 2024-01-18 14:55:50 +00:00			`if (nqv? t 1234) { printf "ERROR: t must be 1234\n" } \`
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`else { printf "OK: t is %d\n" t };`


enhanced the test runner for errors to support multiple scripts in a single file 2024-02-04 17:43:50 +00:00			`j := #{ ((X:make):get-x): 9999, 4512: ((X: make): get-x) };`
			`v := (dic.get j 1234);`
added line-break escaping 2024-01-18 14:55:50 +00:00			`if (nqv? v 9999) { printf "ERROR: v is not 9999\n" } \`
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`else { printf "OK: value is %d\n" v };`

enhanced the test runner for errors to support multiple scripts in a single file 2024-02-04 17:43:50 +00:00			`v := (dic.get j 4512);`
added line-break escaping 2024-01-18 14:55:50 +00:00			`if (nqv? v 1234) { printf "ERROR: v is not 1234\n" } \`
enhanced the compiler to show a proper message for a redundant class name defined with 'class' 2024-01-02 04:59:03 +00:00			`else { printf "OK: value is %d\n" v };`
fixed the lvalue check in the assignment list in read.c touched up fnblk handling in comp.c updated more code in hcl-x.c 2024-04-18 14:06:28 +00:00
			`## --------------------------------------------------------------`

changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class X [ a b c d ] {`
fixed the lvalue check in the assignment list in read.c touched up fnblk handling in comp.c updated more code in hcl-x.c 2024-04-18 14:06:28 +00:00			`fun :*new() {`
			`return self;`
			`}`

			`fun x() {`
			`a := 20 ; self.b:=(a + 10); c := (b + 20)`
			`printf "%d %d %d\n" self.a self.b self.c`
			`return (+ self.a self.b self.c)`
			`}`
			`fun y() {`
			`self.d := (fun(k) {`
			`return (k + 1)`
			`})`
			`return self.d`
			`}`

			`}; a := (X:new); v := (a:x)`
			`if (nqv? v 100) { printf "ERROR: v is not 100\n" } \`
			`else { printf "OK: value is %d\n" v }`

			`v := ((a:y) 20);`
			`if (nqv? v 21) { printf "ERROR: v is not 21\n" } \`
			`else { printf "OK: value is %d\n" v }`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00
			`## --------------------------------------------------------------`

changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class F [ j t ] {`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`}`

changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class X [ a b c ] {`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`fun :* new () {`
			`self.a := 20`
			`return self`
			`}`

			`fun getA() { return self.a }`

			`fun make(t a b) {`
			`\| v \|`
			`v := 50`
			`if (t > 5) {`
added more test cases 2024-05-31 15:11:51 +00:00			`fun X:get_j() { return (((1 + t) + a) + (b + v)) }`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`} else {`
added more test cases 2024-05-31 15:11:51 +00:00			`fun X:get_j() { return ((2 * (t + a)) + (b + v)) }`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`}`
			`return self`
			`}`
			`}`

			`fun X:get_a() {`
			`return (self:getA)`
			`}`

			`v := ((X:new):get_a)`
			`if (nqv? v 20) { printf "ERROR: v is not 20 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`v := (((X:new):make 5 6 7):get_j)`
added more test cases 2024-05-31 15:11:51 +00:00			`if (nqv? v 79) { printf "ERROR: v is not 79 - %d\n" v } \`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`else { printf "OK: value is %d\n" v }`

			`v := (((X:new):make 6 6 7):get_j)`
added more test cases 2024-05-31 15:11:51 +00:00			`if (nqv? v 70) { printf "ERROR: v is not 70 - %d\n" v } \`
fixed the bug accessing the wrong context in IVAR and CVAR_M instructions 2024-05-31 06:16:31 +00:00			`else { printf "OK: value is %d\n" v }`
added more test cases 2024-05-31 15:11:51 +00:00
			`## --------------------------------------------------------------`

changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class F [ j t ] {`
added more test cases 2024-05-31 15:11:51 +00:00			`}`

changed the syntax of the class-level variable declacration to use square brackets 2024-07-09 14:44:24 +00:00			`class X [ a b c ] {`
added more test cases 2024-05-31 15:11:51 +00:00			`fun :* new () {`
			`\| j \|`
			`self.a := 20`
			`j := (self.a * 2)`
			`fun F::get_x() { return (j * j) }`
			`return self`
			`}`
			`}`

			`X:new`
			`v := (F:get_x)`
			`if (nqv? v 1600) { printf "ERROR: v is not 1600 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`## --------------------------------------------------------------`
			`class X {`
			`fun :* new (a b) {`
			`fun X:sum() { return (fun(j) { return (j + (a + b)) }) }`
			`return self;`
			`}`
			`}`

			`v := (((X:new 10 2):sum) 23)`
			`if (nqv? v 35) { printf "ERROR: v is not 35 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`## --------------------------------------------------------------`
			`class X {`
			`fun :: t() {`
			`\| X \|`
			`class X { ## this X isn't the local variable X`
			`fun :: t() {`
			`X := (class {`
			`fun :: t() {`
			`\| X \|`
			`X := (class { ## this X is the local variable X`
			`fun :: t() { return 60 }`
			`})`
			`return 40`
			`}`
			`})`
			`return 20;`
			`}`
			`}`
			`return 30`
			`}`
			`}`

			`v := (X:t)`
			`if (nqv? v 30) { printf "ERROR: v is not 30 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`v := (X:t)`
			`if (nqv? v 20) { printf "ERROR: v is not 20 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`v := (X:t)`
			`if (nqv? v 40) { printf "ERROR: v is not 40 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`

			`v := (X:t)`
			`if (nqv? v 40) { printf "ERROR: v is not 40 - %d\n" v } \`
			`else { printf "OK: value is %d\n" v }`