github.com/pankona/gometalinter@v2.0.11+incompatible/_linters/src/golang.org/x/tools/go/ssa/source.go (about) 1 // Copyright 2013 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package ssa 6 7 // This file defines utilities for working with source positions 8 // or source-level named entities ("objects"). 9 10 // TODO(adonovan): test that {Value,Instruction}.Pos() positions match 11 // the originating syntax, as specified. 12 13 import ( 14 "go/ast" 15 "go/token" 16 "go/types" 17 ) 18 19 // EnclosingFunction returns the function that contains the syntax 20 // node denoted by path. 21 // 22 // Syntax associated with package-level variable specifications is 23 // enclosed by the package's init() function. 24 // 25 // Returns nil if not found; reasons might include: 26 // - the node is not enclosed by any function. 27 // - the node is within an anonymous function (FuncLit) and 28 // its SSA function has not been created yet 29 // (pkg.Build() has not yet been called). 30 // 31 func EnclosingFunction(pkg *Package, path []ast.Node) *Function { 32 // Start with package-level function... 33 fn := findEnclosingPackageLevelFunction(pkg, path) 34 if fn == nil { 35 return nil // not in any function 36 } 37 38 // ...then walk down the nested anonymous functions. 39 n := len(path) 40 outer: 41 for i := range path { 42 if lit, ok := path[n-1-i].(*ast.FuncLit); ok { 43 for _, anon := range fn.AnonFuncs { 44 if anon.Pos() == lit.Type.Func { 45 fn = anon 46 continue outer 47 } 48 } 49 // SSA function not found: 50 // - package not yet built, or maybe 51 // - builder skipped FuncLit in dead block 52 // (in principle; but currently the Builder 53 // generates even dead FuncLits). 54 return nil 55 } 56 } 57 return fn 58 } 59 60 // HasEnclosingFunction returns true if the AST node denoted by path 61 // is contained within the declaration of some function or 62 // package-level variable. 63 // 64 // Unlike EnclosingFunction, the behaviour of this function does not 65 // depend on whether SSA code for pkg has been built, so it can be 66 // used to quickly reject check inputs that will cause 67 // EnclosingFunction to fail, prior to SSA building. 68 // 69 func HasEnclosingFunction(pkg *Package, path []ast.Node) bool { 70 return findEnclosingPackageLevelFunction(pkg, path) != nil 71 } 72 73 // findEnclosingPackageLevelFunction returns the Function 74 // corresponding to the package-level function enclosing path. 75 // 76 func findEnclosingPackageLevelFunction(pkg *Package, path []ast.Node) *Function { 77 if n := len(path); n >= 2 { // [... {Gen,Func}Decl File] 78 switch decl := path[n-2].(type) { 79 case *ast.GenDecl: 80 if decl.Tok == token.VAR && n >= 3 { 81 // Package-level 'var' initializer. 82 return pkg.init 83 } 84 85 case *ast.FuncDecl: 86 if decl.Recv == nil && decl.Name.Name == "init" { 87 // Explicit init() function. 88 for _, b := range pkg.init.Blocks { 89 for _, instr := range b.Instrs { 90 if instr, ok := instr.(*Call); ok { 91 if callee, ok := instr.Call.Value.(*Function); ok && callee.Pkg == pkg && callee.Pos() == decl.Name.NamePos { 92 return callee 93 } 94 } 95 } 96 } 97 // Hack: return non-nil when SSA is not yet 98 // built so that HasEnclosingFunction works. 99 return pkg.init 100 } 101 // Declared function/method. 102 return findNamedFunc(pkg, decl.Name.NamePos) 103 } 104 } 105 return nil // not in any function 106 } 107 108 // findNamedFunc returns the named function whose FuncDecl.Ident is at 109 // position pos. 110 // 111 func findNamedFunc(pkg *Package, pos token.Pos) *Function { 112 // Look at all package members and method sets of named types. 113 // Not very efficient. 114 for _, mem := range pkg.Members { 115 switch mem := mem.(type) { 116 case *Function: 117 if mem.Pos() == pos { 118 return mem 119 } 120 case *Type: 121 mset := pkg.Prog.MethodSets.MethodSet(types.NewPointer(mem.Type())) 122 for i, n := 0, mset.Len(); i < n; i++ { 123 // Don't call Program.Method: avoid creating wrappers. 124 obj := mset.At(i).Obj().(*types.Func) 125 if obj.Pos() == pos { 126 return pkg.values[obj].(*Function) 127 } 128 } 129 } 130 } 131 return nil 132 } 133 134 // ValueForExpr returns the SSA Value that corresponds to non-constant 135 // expression e. 136 // 137 // It returns nil if no value was found, e.g. 138 // - the expression is not lexically contained within f; 139 // - f was not built with debug information; or 140 // - e is a constant expression. (For efficiency, no debug 141 // information is stored for constants. Use 142 // go/types.Info.Types[e].Value instead.) 143 // - e is a reference to nil or a built-in function. 144 // - the value was optimised away. 145 // 146 // If e is an addressable expression used in an lvalue context, 147 // value is the address denoted by e, and isAddr is true. 148 // 149 // The types of e (or &e, if isAddr) and the result are equal 150 // (modulo "untyped" bools resulting from comparisons). 151 // 152 // (Tip: to find the ssa.Value given a source position, use 153 // importer.PathEnclosingInterval to locate the ast.Node, then 154 // EnclosingFunction to locate the Function, then ValueForExpr to find 155 // the ssa.Value.) 156 // 157 func (f *Function) ValueForExpr(e ast.Expr) (value Value, isAddr bool) { 158 if f.debugInfo() { // (opt) 159 e = unparen(e) 160 for _, b := range f.Blocks { 161 for _, instr := range b.Instrs { 162 if ref, ok := instr.(*DebugRef); ok { 163 if ref.Expr == e { 164 return ref.X, ref.IsAddr 165 } 166 } 167 } 168 } 169 } 170 return 171 } 172 173 // --- Lookup functions for source-level named entities (types.Objects) --- 174 175 // Package returns the SSA Package corresponding to the specified 176 // type-checker package object. 177 // It returns nil if no such SSA package has been created. 178 // 179 func (prog *Program) Package(obj *types.Package) *Package { 180 return prog.packages[obj] 181 } 182 183 // packageLevelValue returns the package-level value corresponding to 184 // the specified named object, which may be a package-level const 185 // (*Const), var (*Global) or func (*Function) of some package in 186 // prog. It returns nil if the object is not found. 187 // 188 func (prog *Program) packageLevelValue(obj types.Object) Value { 189 if pkg, ok := prog.packages[obj.Pkg()]; ok { 190 return pkg.values[obj] 191 } 192 return nil 193 } 194 195 // FuncValue returns the concrete Function denoted by the source-level 196 // named function obj, or nil if obj denotes an interface method. 197 // 198 // TODO(adonovan): check the invariant that obj.Type() matches the 199 // result's Signature, both in the params/results and in the receiver. 200 // 201 func (prog *Program) FuncValue(obj *types.Func) *Function { 202 fn, _ := prog.packageLevelValue(obj).(*Function) 203 return fn 204 } 205 206 // ConstValue returns the SSA Value denoted by the source-level named 207 // constant obj. 208 // 209 func (prog *Program) ConstValue(obj *types.Const) *Const { 210 // TODO(adonovan): opt: share (don't reallocate) 211 // Consts for const objects and constant ast.Exprs. 212 213 // Universal constant? {true,false,nil} 214 if obj.Parent() == types.Universe { 215 return NewConst(obj.Val(), obj.Type()) 216 } 217 // Package-level named constant? 218 if v := prog.packageLevelValue(obj); v != nil { 219 return v.(*Const) 220 } 221 return NewConst(obj.Val(), obj.Type()) 222 } 223 224 // VarValue returns the SSA Value that corresponds to a specific 225 // identifier denoting the source-level named variable obj. 226 // 227 // VarValue returns nil if a local variable was not found, perhaps 228 // because its package was not built, the debug information was not 229 // requested during SSA construction, or the value was optimized away. 230 // 231 // ref is the path to an ast.Ident (e.g. from PathEnclosingInterval), 232 // and that ident must resolve to obj. 233 // 234 // pkg is the package enclosing the reference. (A reference to a var 235 // always occurs within a function, so we need to know where to find it.) 236 // 237 // If the identifier is a field selector and its base expression is 238 // non-addressable, then VarValue returns the value of that field. 239 // For example: 240 // func f() struct {x int} 241 // f().x // VarValue(x) returns a *Field instruction of type int 242 // 243 // All other identifiers denote addressable locations (variables). 244 // For them, VarValue may return either the variable's address or its 245 // value, even when the expression is evaluated only for its value; the 246 // situation is reported by isAddr, the second component of the result. 247 // 248 // If !isAddr, the returned value is the one associated with the 249 // specific identifier. For example, 250 // var x int // VarValue(x) returns Const 0 here 251 // x = 1 // VarValue(x) returns Const 1 here 252 // 253 // It is not specified whether the value or the address is returned in 254 // any particular case, as it may depend upon optimizations performed 255 // during SSA code generation, such as registerization, constant 256 // folding, avoidance of materialization of subexpressions, etc. 257 // 258 func (prog *Program) VarValue(obj *types.Var, pkg *Package, ref []ast.Node) (value Value, isAddr bool) { 259 // All references to a var are local to some function, possibly init. 260 fn := EnclosingFunction(pkg, ref) 261 if fn == nil { 262 return // e.g. def of struct field; SSA not built? 263 } 264 265 id := ref[0].(*ast.Ident) 266 267 // Defining ident of a parameter? 268 if id.Pos() == obj.Pos() { 269 for _, param := range fn.Params { 270 if param.Object() == obj { 271 return param, false 272 } 273 } 274 } 275 276 // Other ident? 277 for _, b := range fn.Blocks { 278 for _, instr := range b.Instrs { 279 if dr, ok := instr.(*DebugRef); ok { 280 if dr.Pos() == id.Pos() { 281 return dr.X, dr.IsAddr 282 } 283 } 284 } 285 } 286 287 // Defining ident of package-level var? 288 if v := prog.packageLevelValue(obj); v != nil { 289 return v.(*Global), true 290 } 291 292 return // e.g. debug info not requested, or var optimized away 293 }