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// Copyright 2021 The Dawn & Tint Authors
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// 1. Redistributions of source code must retain the above copyright notice, this
// list of conditions and the following disclaimer.
//
// 2. Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// 3. Neither the name of the copyright holder nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#include "src/tint/lang/wgsl/resolver/resolver.h"
#include "gmock/gmock.h"
#include "src/tint/lang/wgsl/ast/call_statement.h"
#include "src/tint/lang/wgsl/resolver/resolver_helper_test.h"
namespace tint::resolver {
namespace {
using namespace tint::core::fluent_types; // NOLINT
using namespace tint::core::number_suffixes; // NOLINT
using ResolverCallValidationTest = ResolverTest;
TEST_F(ResolverCallValidationTest, TooFewArgs) {
Func("foo",
Vector{
Param(Sym(), ty.i32()),
Param(Sym(), ty.f32()),
},
ty.void_(),
Vector{
Return(),
});
auto* call = Call(Source{{12, 34}}, "foo", 1_i);
WrapInFunction(call);
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), "12:34 error: too few arguments in call to 'foo', expected 2, got 1");
}
TEST_F(ResolverCallValidationTest, TooManyArgs) {
Func("foo",
Vector{
Param(Sym(), ty.i32()),
Param(Sym(), ty.f32()),
},
ty.void_(),
Vector{
Return(),
});
auto* call = Call(Source{{12, 34}}, "foo", 1_i, 1_f, 1_f);
WrapInFunction(call);
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), "12:34 error: too many arguments in call to 'foo', expected 2, got 3");
}
TEST_F(ResolverCallValidationTest, MismatchedArgs) {
Func("foo",
Vector{
Param(Sym(), ty.i32()),
Param(Sym(), ty.f32()),
},
ty.void_(),
Vector{
Return(),
});
auto* call = Call("foo", Expr(Source{{12, 34}}, true), 1_f);
WrapInFunction(call);
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(),
"12:34 error: type mismatch for argument 1 in call to 'foo', "
"expected 'i32', got 'bool'");
}
TEST_F(ResolverCallValidationTest, UnusedRetval) {
// fn func() -> f32 { return 1.0; }
// fn main() {func(); return; }
Func("func", tint::Empty, ty.f32(),
Vector{
Return(Expr(1_f)),
},
tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
CallStmt(Source{{12, 34}}, Call("func")),
Return(),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, PointerArgument_VariableIdentExpr) {
// fn foo(p: ptr<function, i32>) {}
// fn main() {
// var z: i32 = 1i;
// foo(&z);
// }
auto* param = Param("p", ty.ptr<function, i32>());
Func("foo", Vector{param}, ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("z", ty.i32(), Expr(1_i))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, Expr("z")))),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, PointerArgument_LetIdentExpr) {
// fn foo(p: ptr<function, i32>) {}
// fn main() {
// let z: i32 = 1i;
// foo(&z);
// }
auto* param = Param("p", ty.ptr<function, i32>());
Func("foo", Vector{param}, ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Let("z", ty.i32(), Expr(1_i))),
CallStmt(Call("foo", AddressOf(Expr(Source{{12, 34}}, "z")))),
});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), "12:34 error: cannot take the address of 'let z'");
}
TEST_F(ResolverCallValidationTest,
PointerArgument_AddressOfFunctionMember_WithoutUnrestrictedPointerParameters) {
// struct S { m: i32; };
// fn foo(p: ptr<function, i32>) {}
// fn main() {
// var v : S;
// foo(&v.m);
// }
auto* S = Structure("S", Vector{
Member("m", ty.i32()),
});
auto* param = Param("p", ty.ptr<function, i32>());
Func("foo", Vector{param}, ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.Of(S))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, MemberAccessor("v", "m")))),
});
Resolver r{this, wgsl::AllowedFeatures{}};
EXPECT_FALSE(r.Resolve());
EXPECT_EQ(
r.error(),
R"(12:34 error: arguments of pointer type must not point to a subset of the originating variable)");
}
TEST_F(ResolverCallValidationTest,
PointerArgument_AddressOfFunctionMember_WithUnrestrictedPointerParameters) {
// struct S { m: i32; };
// fn foo(p: ptr<function, i32>) {}
// fn main() {
// var v : S;
// foo(&v.m);
// }
auto* S = Structure("S", Vector{
Member("m", ty.i32()),
});
auto* param = Param("p", ty.ptr<function, i32>());
Func("foo", Vector{param}, ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.Of(S))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, MemberAccessor("v", "m")))),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, PointerArgument_AddressOfLetMember) {
// struct S { m: i32; };
// fn foo(p: ptr<function, i32>) {}
// fn main() {
// let v: S = S();
// foo(&v.m);
// }
auto* S = Structure("S", Vector{
Member("m", ty.i32()),
});
auto* param = Param("p", ty.ptr<function, i32>());
Func("foo", Vector{param}, ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Let("v", ty.Of(S), Call(ty.Of(S)))),
CallStmt(Call("foo", AddressOf(MemberAccessor(Source{{12, 34}}, "v", "m")))),
});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), "12:34 error: cannot take the address of value of type 'i32'");
}
TEST_F(ResolverCallValidationTest, PointerArgument_FunctionParam) {
// fn foo(p: ptr<function, i32>) {}
// fn bar(p: ptr<function, i32>) {
// foo(p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("bar",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(),
Vector{
CallStmt(Call("foo", Expr("p"))),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, PointerArgument_FunctionParamWithMain) {
// fn foo(p: ptr<function, i32>) {}
// fn bar(p: ptr<function, i32>) {
// foo(p);
// }
// @fragment
// fn main() {
// var v: i32;
// bar(&v);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("bar",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(),
Vector{
CallStmt(Call("foo", "p")),
});
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.i32(), Expr(1_i))),
CallStmt(Call("foo", AddressOf("v"))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, LetPointer) {
// fn foo(p : ptr<function, i32>) {}
// @fragment
// fn main() {
// var v: i32;
// let p: ptr<function, i32> = &v;
// x(p);
// }
Func("x",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.i32())),
Decl(Let("p", ty.ptr<function, i32>(), AddressOf("v"))),
CallStmt(Call("x", "p")),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, LetPointerPrivate) {
// fn foo(p : ptr<private, i32>) {}
// var v : i32;
// @fragment
// fn main() {
// let p : ptr<private, i32> = &v;
// foo(p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<private_, i32>()),
},
ty.void_(), tint::Empty);
GlobalVar("v", ty.i32(), core::AddressSpace::kPrivate);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Let("p", ty.ptr<private_, i32>(), AddressOf("v"))),
CallStmt(Call("foo", Expr(Source{{12, 34}}, "p"))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest, LetPointer_NotWholeVar_WithoutUnrestrictedPointerParameters) {
// fn foo(p : ptr<function, i32>) {}
// @fragment
// fn main() {
// var v: array<i32, 4>;
// let p: ptr<function, i32> = &(v[0]);
// x(p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.array<i32, 4>())),
Decl(Let("p", ty.ptr<function, i32>(), AddressOf(IndexAccessor("v", 0_a)))),
CallStmt(Call("foo", Expr(Source{{12, 34}}, "p"))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Resolver r(this, wgsl::AllowedFeatures{});
EXPECT_FALSE(r.Resolve());
EXPECT_EQ(r.error(),
"12:34 error: arguments of pointer type must not point to a subset of the "
"originating variable");
}
TEST_F(ResolverCallValidationTest, LetPointer_NotWholeVar_WithUnrestrictedPointerParameters) {
// fn foo(p : ptr<function, i32>) {}
// @fragment
// fn main() {
// var v: array<i32, 4>;
// let p: ptr<function, i32> = &(v[0]);
// x(p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.array<i32, 4>())),
Decl(Let("p", ty.ptr<function, i32>(), AddressOf(IndexAccessor("v", 0_a)))),
CallStmt(Call("foo", Expr(Source{{12, 34}}, "p"))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve());
}
TEST_F(ResolverCallValidationTest, ComplexPointerChain) {
// fn foo(p : ptr<function, array<i32, 4>>) {}
// @fragment
// fn main() {
// var v: array<i32, 4>;
// let p1 = &v;
// let p2 = p1;
// let p3 = &*p2;
// foo(&*p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, array<i32, 4>>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.array<i32, 4>())),
Decl(Let("p1", AddressOf("v"))),
Decl(Let("p2", Expr("p1"))),
Decl(Let("p3", AddressOf(Deref("p2")))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, Deref("p3")))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve()) << r()->error();
}
TEST_F(ResolverCallValidationTest,
ComplexPointerChain_NotWholeVar_WithoutUnrestrictedPointerParameters) {
// fn foo(p : ptr<function, i32>) {}
// @fragment
// fn main() {
// var v: array<i32, 4>;
// let p1 = &v;
// let p2 = p1;
// let p3 = &(*p2)[0];
// foo(&*p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.array<i32, 4>())),
Decl(Let("p1", AddressOf("v"))),
Decl(Let("p2", Expr("p1"))),
Decl(Let("p3", AddressOf(IndexAccessor(Deref("p2"), 0_a)))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, Deref("p3")))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
Resolver r{this, {}};
EXPECT_FALSE(r.Resolve());
EXPECT_EQ(r.error(),
"12:34 error: arguments of pointer type must not point to a subset of the "
"originating variable");
}
TEST_F(ResolverCallValidationTest,
ComplexPointerChain_NotWholeVar_WithUnrestrictedPointerParameters) {
// fn foo(p : ptr<function, i32>) {}
// @fragment
// fn main() {
// var v: array<i32, 4>;
// let p1 = &v;
// let p2 = p1;
// let p3 = &(*p2)[0];
// foo(&*p);
// }
Func("foo",
Vector{
Param("p", ty.ptr<function, i32>()),
},
ty.void_(), tint::Empty);
Func("main", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", ty.array<i32, 4>())),
Decl(Let("p1", AddressOf("v"))),
Decl(Let("p2", Expr("p1"))),
Decl(Let("p3", AddressOf(IndexAccessor(Deref("p2"), 0_a)))),
CallStmt(Call("foo", AddressOf(Source{{12, 34}}, Deref("p3")))),
},
Vector{
Stage(ast::PipelineStage::kFragment),
});
EXPECT_TRUE(r()->Resolve());
}
TEST_F(ResolverCallValidationTest, MustUseFunction) {
Func(Source{{56, 78}}, "fn_must_use", tint::Empty, ty.i32(), Vector{Return(1_i)},
Vector{MustUse()});
Func("f", tint::Empty, ty.void_(), Vector{CallStmt(Call(Source{{12, 34}}, "fn_must_use"))});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(
r()->error(),
R"(12:34 error: ignoring return value of function 'fn_must_use' annotated with '@must_use'
56:78 note: function 'fn_must_use' declared here)");
}
TEST_F(ResolverCallValidationTest, MustUseBuiltin) {
Func("f", tint::Empty, ty.void_(), Vector{CallStmt(Call(Source{{12, 34}}, "max", 1_a, 2_a))});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), "12:34 error: ignoring return value of builtin 'max'");
}
TEST_F(ResolverCallValidationTest, UnexpectedFunctionTemplateArgs) {
// fn a() {}
// fn b() {
// a<i32>();
// }
Func(Source{{56, 78}}, "a", tint::Empty, ty.void_(), tint::Empty);
Func("b", tint::Empty, ty.void_(),
Vector{
CallStmt(Call(Ident(Source{{12, 34}}, "a", "i32"))),
});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(), R"(12:34 error: function 'a' does not take template arguments
56:78 note: function 'a' declared here)");
}
TEST_F(ResolverCallValidationTest, UnexpectedBuiltinTemplateArgs) {
// fn f() {
// min<i32>(1, 2);
// }
Func("f", tint::Empty, ty.void_(),
Vector{
Decl(Var("v", Call(Source{{12, 34}}, Ident("min", "i32"), 1_a, 2_a))),
});
EXPECT_FALSE(r()->Resolve());
EXPECT_EQ(r()->error(),
R"(12:34 error: no matching call to 'min<i32>(abstract-int, abstract-int)'
2 candidate functions:
'min(T ✓ , T ✓ ) -> T' where:
overload expects 0 template arguments, call passed 1 argument
'T' is 'abstract-float', 'abstract-int', 'f32', 'i32', 'u32' or 'f16'
'min(vecN<T> ✗ , vecN<T> ✗ ) -> vecN<T>' where:
'T' is 'abstract-float', 'abstract-int', 'f32', 'i32', 'u32' or 'f16'
)");
}
} // namespace
} // namespace tint::resolver