llvm-project/clang/test/SemaCXX/cxx1y-init-captures.cpp

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Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
// RUN: %clang_cc1 -std=c++1y %s -verify -emit-llvm-only
namespace variadic_expansion {
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
int f(int &, char &) { return 0; }
template<class ... Ts> char fv(Ts ... ts) { return 0; }
// FIXME: why do we get 2 error messages
template <typename ... T> void g(T &... t) { //expected-note3{{declared here}}
f([&a(t)]()->decltype(auto) {
return a;
}() ...);
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
auto L = [x = f([&a(t)]()->decltype(auto) { return a; }()...)]() { return x; };
const int y = 10;
auto M = [x = y,
&z = y](T& ... t) { };
auto N = [x = y,
&z = y, n = f(t...),
o = f([&a(t)](T& ... t)->decltype(auto) { return a; }(t...)...), t...](T& ... s) {
fv([&a(t)]()->decltype(auto) {
return a;
}() ...);
};
auto N2 = [x = y, //expected-note3{{begins here}}
&z = y, n = f(t...),
o = f([&a(t)](T& ... t)->decltype(auto) { return a; }(t...)...)](T& ... s) {
fv([&a(t)]()->decltype(auto) { //expected-error 3{{captured}}
return a;
}() ...);
};
}
void h(int i, char c) { g(i, c); } //expected-note{{in instantiation}}
}
namespace odr_use_within_init_capture {
int test() {
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
{ // no captures
const int x = 10;
auto L = [z = x + 2](int a) {
auto M = [y = x - 2](char b) {
return y;
};
return M;
};
}
{ // should not capture
const int x = 10;
auto L = [&z = x](int a) {
return a;;
};
}
{
const int x = 10;
auto L = [k = x](char a) { //expected-note {{declared}}
return [](int b) { //expected-note {{begins}}
return [j = k](int c) { //expected-error {{cannot be implicitly captured}}
return c;
};
};
};
}
{
const int x = 10;
auto L = [k = x](char a) {
return [=](int b) {
return [j = k](int c) {
return c;
};
};
};
}
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
{
const int x = 10;
auto L = [k = x](char a) {
return [k](int b) {
return [j = k](int c) {
return c;
};
};
};
}
return 0;
}
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
int run = test();
}
namespace odr_use_within_init_capture_template {
template<class T = int>
int test(T t = T{}) {
{ // no captures
const T x = 10;
auto L = [z = x](char a) {
auto M = [y = x](T b) {
return y;
};
return M;
};
}
{ // should not capture
const T x = 10;
auto L = [&z = x](T a) {
return a;;
};
}
{ // will need to capture x in outer lambda
const T x = 10; //expected-note {{declared}}
auto L = [z = x](char a) { //expected-note {{begins}}
auto M = [&y = x](T b) { //expected-error {{cannot be implicitly captured}}
return y;
};
return M;
};
}
{ // will need to capture x in outer lambda
const T x = 10;
auto L = [=,z = x](char a) {
auto M = [&y = x](T b) {
return y;
};
return M;
};
}
{ // will need to capture x in outer lambda
const T x = 10;
auto L = [x, z = x](char a) {
auto M = [&y = x](T b) {
return y;
};
return M;
};
}
{ // will need to capture x in outer lambda
const int x = 10; //expected-note 2{{declared}}
auto L = [z = x](char a) { //expected-note 2{{begins}}
auto M = [&y = x](T b) { //expected-error 2{{cannot be implicitly captured}}
return y;
};
return M;
};
}
{
// no captures
const T x = 10;
auto L = [z =
[z = x, &y = x](char a) { return z + y; }('a')](char a)
{ return z; };
}
return 0;
}
Fix init-captures for generic lambdas. For an init capture, process the initialization expression right away. For lambda init-captures such as the following: const int x = 10; auto L = [i = x+1](int a) { return [j = x+2, &k = x](char b) { }; }; keep in mind that each lambda init-capture has to have: - its initialization expression executed in the context of the enclosing/parent decl-context. - but the variable itself has to be 'injected' into the decl-context of its lambda's call-operator (which has not yet been created). Each init-expression is a full-expression that has to get Sema-analyzed (for capturing etc.) before its lambda's call-operator's decl-context, scope & scopeinfo are pushed on their respective stacks. Thus if any variable is odr-used in the init-capture it will correctly get captured in the enclosing lambda, if one exists. The init-variables above are created later once the lambdascope and call-operators decl-context is pushed onto its respective stack. Since the lambda init-capture's initializer expression occurs in the context of the enclosing function or lambda, therefore we can not wait till a lambda scope has been pushed on before deciding whether the variable needs to be captured. We also need to process all lvalue-to-rvalue conversions and discarded-value conversions, so that we can avoid capturing certain constant variables. For e.g., void test() { const int x = 10; auto L = [&z = x](char a) { <-- don't capture by the current lambda return [y = x](int i) { <-- don't capture by enclosing lambda return y; } }; If x was not const, the second use would require 'L' to capture, and that would be an error. Make sure TranformLambdaExpr is also aware of this. Patch approved by Richard (Thanks!!) http://llvm-reviews.chandlerc.com/D2092 llvm-svn: 196454
2013-12-05 09:40:41 +08:00
int run = test(); //expected-note {{instantiation}}
}