#include 'Stix.st'. ################################################################# ## MAIN ################################################################# ## TODO: use #define to define a class or use #class to define a class. ## use #extend to extend a class ## using #class for both feels confusing. #extend Apex { } #extend SmallInteger { #method getTrue: anInteger { ^anInteger + 9999. } #method inc { ^self + 1. } } #class TestObject(Object) { #dcl(#class) Q R. #dcl(#classinst) t1 t2. } #class MyObject(TestObject) { #dcl(#class) C B A. #method getTrue { ^true. } #method getTrue: anInteger { ^ anInteger } #method getFalse { ^false } #method yyy: aBlock { | a | a := aBlock value. ^a + 99. ##a := Stix.MyCOM.HashTable new. } #method xxx: aBlock { | a | a := self yyy: aBlock. 'KKKKKKKKKKKKKKKKKKKKKKKKKKKKK' dump. ^a. } #method(#class) main2 { | a b c sum | ## ##(10 add: 20) dump. ## (10 + 20) dump. ## ## a := 10 + 20 + 30. ## b := [:x :y | | t z | x := 20. b := 9. x := 10 + 20 ]. ## ## (b value: 10 value: 20) dump. ## ## thisContext basicSize dump. ## ## (thisContext basicAt: (8 + 5)) dump. ## ## ^self. a := self new. ##a yourself. ##b := a getTrue; getFalse. ##b := a getTrue; getFalse; getTrue: 20 + 10. ##b := a getTrue; getFalse; getTrue: 20 + 10; getTrue: 90 + 20. ##b := 3 + 5 getTrue: 20; getTrue: 8 + 1; getTrue: 20; yourself. b := 3 + 5 inc getTrue: 20 + (30 getTrue: 20; yourself); yourself. ##b := [:q | q ] value: a getTrue. b dump. ##^self. ## ############################################################ ## A := 99. [:x :y | R := y. ] value: 10 value: 6. R := R + 1. R dump. sum := [ :n | (n < 2) ifTrue: [1] ifFalse: [ n + (sum value: (n - 1))] ]. ##sum := [ :n | (n < 2) ifTrue: [1] ifFalse: [ n + (sum value: (n - 1)) + (sum value: (n - 2))] ]. (sum value: R; value: 5) dump. ##sum := [ :n | sum value: 5 ]. ##sum value: 5. #[ 1 2 3] dump. #[ 4 5 6] dump. #(abc:def: 2 'string is good' 3 4 (5 6) (7 (8 9)) 10) dump. #([] #[]) dump. a := #(abc:def: -2 'string is good' 3 #[2 3 4] 4 (5 6) (7 (8 [4 56] 'hello' 9)) 10 -93952 self true false nil thisContext super). a at: 3 put: 'hello world'; dump. a := self new. (a xxx: [888]) dump. 20 dump. b := 0. [ b < 9 ] whileTrue: [ b dump. b := b + 1 ]. S'hello \t\u78966\u8765\u3456\u2723\x20\123world\uD57C\uB85C\uC6B0' dump. C'\n' dump. #abc:def: dump. ##a := (11 < 10) ifTrue: [5] ifFalse: [20]. ##a dump. } #method(#class) main55 { |a b c| self main2. ## b := 0. ## [ b < 5 ] whileTrue: [ b dump. b := b + 1 ]. } #method(#class) getTen { ^10 } ## --------------------------------------------------------------------------- " this sample demonstrates what happens when a block context returns to the origin's caller after the caller has already returned. " #method(#class) xxxx { | g1 g2 | t1 dump. t2 := [ |tmp| g1 := 50. g2 := 100. tmp := g1 + g2. tmp dump. ^tmp ]. (t1 < 100) ifFalse: [ ^self ]. t1 := t1 + 1. self xxxx } #method(#class) yyyy { |c1| t1 := 1. c1 :=self xxxx. 888 dump. 999 dump. ^c1. } #method(#class) main66 { self yyyy. t2 := t2 value. "can t2 return? it should return somewhere into the method context of yyy. but it has already terminated" t2 dump. } #method(#class) mainj { |k1| t1 := 1. self xxxx. t2 := t2 value. "can t2 return? it should return somewhere into the method context of yyy. but it has already terminated" t2 dump. } ## ---------------------------------------------------------------------- #method(#class) main22 { |a b c d e f g h i j k sum | sum := [ :n | (n < 2) ifTrue: [1] ifFalse: [ n + (sum value: (n - 1))] ]. (sum value: 5) dump. '-------------------------' dump. b := 0. [ b < 2000 ] whileTrue: [ b dump. b := b + 1 ]. '-------------------------' dump. b := 0. [ b < 10 ] whileTrue: [ b dump. b := b + 1 ]. '-------------------------' dump. a := #[4 5 6 7] at: 3. (#[3 2 1] at: 3) dump. ## thisContext value. "the message value must be unresolvable as thisContext is a method context" ## [thisContext value] value. '-------------------------' dump. b := 0. [ b := b + 1. b dump. thisContext value] value. [self getTen] value dump. } #method(#class) abc { } #method(#class) main { "| ffi | ffi := FFI new: 'libc.so.6'. ## ffi call: #printf with: #((str '%d') (int 10) (long 20)). ffi call: #printf withSig: 'i|sii' withArgs: #(S'hello world %d %d\n' 11123 9876543). ## ffi call: #puts withSig: 'i|s' withArgs: #('hello world'). ffi close." self abc. FFI isNil dump. FFI notNil dump. nil isNil dump. nil notNil dump. nil class dump. nil class class class dump. } } " [ a := 20. b := [ a + 20 ]. b value. ] value ^ ^ ^ ^ p1 p3 p4 p2 -------------------------------------------------------------------------------- AC -------------------------------------------------------------------------------- mc1 mc1->sender := fake_initial_context. mc1->home := nil. mc1->origin := mc1. mc1 p1 -> bc1 is created based on mc1 (mc1 blockCopy:) bc1->caller := nil bc1->origin := mc1. bc1->home := mc1. (the active context is a method context. so just use it as a home). bc1->source := nil. mc1 p2 -> bc2 is shallow-copied of bc1. (bc1 value) bc2->caller := mc1. (mc1 is the active context at p2 time) bc2->origin := bc1->origin. bc2->home := bc1->home. bc2->source := bc1. bc2 bc3 is created based on bc2. (bc2 blockCopy:) bc3->caller := nil bc3->origin := bc2->origin //bc3->home := bc2. bc3->home := bc2->source. (the active context is a block context. take from the block context's source */ bc3->source := nil. bc2 bc4 is shallow-copied of bc3. (bc3 value) bc4->caller := bc2. (bc2 is the active context at p2 time) bc4->origin := bc3->origin bc4->home := bc3->home bc4->source = bc3. bc4. -------------------------------------------------------------------------------- 'home' is set when the context is created by blockCopy. 'caller' is set when the context is activated. all 'origin' fields point to mc1 as a result. self represents the receiver. that is bc->origin->receiver which is mc1->receiver. -------------------------------------------------------------------------------- #method ifTrue: trueBlock { ^trueBlock value. } #method whileTrue: aBlock { (self value) ifTrue: [aBlock value. self whileTrue: aBlock]. } [ b < 10 ] whileTrue: [ b dump. b := b + 1 ]. "