* Always generate type & symbol baselines * Accept changed shadowed baselines * Accept brand new type and symbol baselines * Allow `getTypeAtLocation` to return undefined in the type writer * Accept baselines which had missing type information * Bind container for dynamically names enum members so they may be printed * Accept type/symbol baselines for enums with computed members * First pass at reducing typeWriter memory overhead * Use generators to allow for type and symbol baselines with no cache * Accept new baselines for tests whose output was fixed by better newline splitting * Hard cap on number of declarations printed, cache declaration print text * handle differing newlines better still to handle RWC newlines * Lower abridging count, accept abridged baselines * Limit max RWC error output size, limit RWC type and symbol baseline input size * Move skip logic into type and symbol baseliner to streamline error handling * Accept removal of empty baselines * Canonicalize path earlier to handle odd paths in input files * Do canonicalization earlier still, also ensure parallel perf profiles for different targets do not trample one another * No need to pathify again
144 lines
2 KiB
Plaintext
144 lines
2 KiB
Plaintext
=== tests/cases/compiler/super1.ts ===
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// Case 1
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class Base1 {
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>Base1 : Base1
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public foo() {
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>foo : () => string
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return "base";
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>"base" : "base"
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}
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}
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class Sub1 extends Base1 {
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>Sub1 : Sub1
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>Base1 : Base1
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public bar() {
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>bar : () => string
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return "base";
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>"base" : "base"
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}
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}
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class SubSub1 extends Sub1 {
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>SubSub1 : SubSub1
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>Sub1 : Sub1
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public bar() {
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>bar : () => any
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return super.super.foo;
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>super.super.foo : any
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>super.super : any
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>super : Sub1
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>super : any
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>foo : any
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}
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}
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// Case 2
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class Base2 {
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>Base2 : Base2
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public foo() {
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>foo : () => string
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return "base";
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>"base" : "base"
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}
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}
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class SubE2 extends Base2 {
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>SubE2 : SubE2
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>Base2 : Base2
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public bar() {
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>bar : () => any
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return super.prototype.foo = null;
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>super.prototype.foo = null : null
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>super.prototype.foo : any
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>super.prototype : any
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>super : Base2
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>prototype : any
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>foo : any
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>null : null
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}
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}
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// Case 3
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class Base3 {
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>Base3 : Base3
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public foo() {
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>foo : () => string
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return "base";
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>"base" : "base"
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}
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}
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class SubE3 extends Base3 {
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>SubE3 : SubE3
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>Base3 : Base3
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public bar() {
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>bar : () => any
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return super.bar();
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>super.bar() : any
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>super.bar : any
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>super : Base3
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>bar : any
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}
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}
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// Case 4
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module Base4 {
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>Base4 : typeof Base4
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class Sub4 {
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>Sub4 : Sub4
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public x(){
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>x : () => string
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return "hello";
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>"hello" : "hello"
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}
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}
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export class SubSub4 extends Sub4{
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>SubSub4 : SubSub4
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>Sub4 : Sub4
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public x(){
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>x : () => string
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return super.x();
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>super.x() : string
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>super.x : () => string
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>super : Sub4
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>x : () => string
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}
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}
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export class Sub4E {
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>Sub4E : Sub4E
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public x() {
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>x : () => any
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return super.x();
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>super.x() : any
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>super.x : any
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>super : any
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>x : any
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}
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}
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}
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