// Copyright 2012 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. // This file implements various error reporters. package types2 import ( "bytes" "cmd/compile/internal/syntax" "fmt" . "internal/types/errors" "runtime" "strconv" "strings" ) func assert(p bool) { if !p { msg := "assertion failed" // Include information about the assertion location. Due to panic recovery, // this location is otherwise buried in the middle of the panicking stack. if _, file, line, ok := runtime.Caller(1); ok { msg = fmt.Sprintf("%s:%d: %s", file, line, msg) } panic(msg) } } func unreachable() { panic("unreachable") } // An error_ represents a type-checking error. // To report an error_, call Checker.report. type error_ struct { desc []errorDesc code Code soft bool // TODO(gri) eventually determine this from an error code } // An errorDesc describes part of a type-checking error. type errorDesc struct { pos syntax.Pos format string args []interface{} } func (err *error_) empty() bool { return err.desc == nil } func (err *error_) pos() syntax.Pos { if err.empty() { return nopos } return err.desc[0].pos } func (err *error_) msg(qf Qualifier) string { if err.empty() { return "no error" } var buf strings.Builder for i := range err.desc { p := &err.desc[i] if i > 0 { fmt.Fprint(&buf, "\n\t") if p.pos.IsKnown() { fmt.Fprintf(&buf, "%s: ", p.pos) } } buf.WriteString(sprintf(qf, false, p.format, p.args...)) } return buf.String() } // String is for testing. func (err *error_) String() string { if err.empty() { return "no error" } return fmt.Sprintf("%s: %s", err.pos(), err.msg(nil)) } // errorf adds formatted error information to err. // It may be called multiple times to provide additional information. func (err *error_) errorf(at poser, format string, args ...interface{}) { err.desc = append(err.desc, errorDesc{atPos(at), format, args}) } func sprintf(qf Qualifier, tpSubscripts bool, format string, args ...interface{}) string { for i, arg := range args { switch a := arg.(type) { case nil: arg = "" case operand: panic("got operand instead of *operand") case *operand: arg = operandString(a, qf) case syntax.Pos: arg = a.String() case syntax.Expr: arg = syntax.String(a) case []syntax.Expr: var buf strings.Builder buf.WriteByte('[') for i, x := range a { if i > 0 { buf.WriteString(", ") } buf.WriteString(syntax.String(x)) } buf.WriteByte(']') arg = buf.String() case Object: arg = ObjectString(a, qf) case Type: var buf bytes.Buffer w := newTypeWriter(&buf, qf) w.tpSubscripts = tpSubscripts w.typ(a) arg = buf.String() case []Type: var buf bytes.Buffer w := newTypeWriter(&buf, qf) w.tpSubscripts = tpSubscripts buf.WriteByte('[') for i, x := range a { if i > 0 { buf.WriteString(", ") } w.typ(x) } buf.WriteByte(']') arg = buf.String() case []*TypeParam: var buf bytes.Buffer w := newTypeWriter(&buf, qf) w.tpSubscripts = tpSubscripts buf.WriteByte('[') for i, x := range a { if i > 0 { buf.WriteString(", ") } w.typ(x) } buf.WriteByte(']') arg = buf.String() } args[i] = arg } return fmt.Sprintf(format, args...) } func (check *Checker) qualifier(pkg *Package) string { // Qualify the package unless it's the package being type-checked. if pkg != check.pkg { if check.pkgPathMap == nil { check.pkgPathMap = make(map[string]map[string]bool) check.seenPkgMap = make(map[*Package]bool) check.markImports(check.pkg) } // If the same package name was used by multiple packages, display the full path. if len(check.pkgPathMap[pkg.name]) > 1 { return strconv.Quote(pkg.path) } return pkg.name } return "" } // markImports recursively walks pkg and its imports, to record unique import // paths in pkgPathMap. func (check *Checker) markImports(pkg *Package) { if check.seenPkgMap[pkg] { return } check.seenPkgMap[pkg] = true forName, ok := check.pkgPathMap[pkg.name] if !ok { forName = make(map[string]bool) check.pkgPathMap[pkg.name] = forName } forName[pkg.path] = true for _, imp := range pkg.imports { check.markImports(imp) } } // check may be nil. func (check *Checker) sprintf(format string, args ...interface{}) string { var qf Qualifier if check != nil { qf = check.qualifier } return sprintf(qf, false, format, args...) } func (check *Checker) report(err *error_) { if err.empty() { panic("no error to report") } check.err(err.pos(), err.code, err.msg(check.qualifier), err.soft) } func (check *Checker) trace(pos syntax.Pos, format string, args ...interface{}) { fmt.Printf("%s:\t%s%s\n", pos, strings.Repeat(". ", check.indent), sprintf(check.qualifier, true, format, args...), ) } // dump is only needed for debugging func (check *Checker) dump(format string, args ...interface{}) { fmt.Println(sprintf(check.qualifier, true, format, args...)) } func (check *Checker) err(at poser, code Code, msg string, soft bool) { switch code { case InvalidSyntaxTree: msg = "invalid syntax tree: " + msg case 0: panic("no error code provided") } // Cheap trick: Don't report errors with messages containing // "invalid operand" or "invalid type" as those tend to be // follow-on errors which don't add useful information. Only // exclude them if these strings are not at the beginning, // and only if we have at least one error already reported. if check.firstErr != nil && (strings.Index(msg, "invalid operand") > 0 || strings.Index(msg, "invalid type") > 0) { return } pos := atPos(at) // If we are encountering an error while evaluating an inherited // constant initialization expression, pos is the position of in // the original expression, and not of the currently declared // constant identifier. Use the provided errpos instead. // TODO(gri) We may also want to augment the error message and // refer to the position (pos) in the original expression. if check.errpos.IsKnown() { assert(check.iota != nil) pos = check.errpos } // If we have a URL for error codes, add a link to the first line. if code != 0 && check.conf.ErrorURL != "" { u := fmt.Sprintf(check.conf.ErrorURL, code) if i := strings.Index(msg, "\n"); i >= 0 { msg = msg[:i] + u + msg[i:] } else { msg += u } } err := Error{pos, stripAnnotations(msg), msg, soft, code} if check.firstErr == nil { check.firstErr = err } if check.conf.Trace { check.trace(pos, "ERROR: %s", msg) } f := check.conf.Error if f == nil { panic(bailout{}) // report only first error } f(err) } const ( invalidArg = "invalid argument: " invalidOp = "invalid operation: " ) type poser interface { Pos() syntax.Pos } func (check *Checker) error(at poser, code Code, msg string) { check.err(at, code, msg, false) } func (check *Checker) errorf(at poser, code Code, format string, args ...interface{}) { check.err(at, code, check.sprintf(format, args...), false) } func (check *Checker) softErrorf(at poser, code Code, format string, args ...interface{}) { check.err(at, code, check.sprintf(format, args...), true) } func (check *Checker) versionErrorf(at poser, v goVersion, format string, args ...interface{}) { msg := check.sprintf(format, args...) msg = fmt.Sprintf("%s requires %s or later", msg, v) check.err(at, UnsupportedFeature, msg, true) } // atPos reports the left (= start) position of at. func atPos(at poser) syntax.Pos { switch x := at.(type) { case *operand: if x.expr != nil { return syntax.StartPos(x.expr) } case syntax.Node: return syntax.StartPos(x) } return at.Pos() } // stripAnnotations removes internal (type) annotations from s. func stripAnnotations(s string) string { var buf strings.Builder for _, r := range s { // strip #'s and subscript digits if r < '₀' || '₀'+10 <= r { // '₀' == U+2080 buf.WriteRune(r) } } if buf.Len() < len(s) { return buf.String() } return s }