mirror of
https://github.com/nspcc-dev/neo-go.git
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7e13140b04
Close #2690.
712 lines
22 KiB
Go
712 lines
22 KiB
Go
package compiler
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import (
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"errors"
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"fmt"
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"go/ast"
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"go/token"
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"go/types"
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"strings"
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"github.com/nspcc-dev/neo-go/pkg/vm/emit"
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"github.com/nspcc-dev/neo-go/pkg/vm/opcode"
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"golang.org/x/tools/go/packages"
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)
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// Various exported functions usage errors.
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var (
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// ErrMissingExportedParamName is returned when exported contract method has unnamed parameter.
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ErrMissingExportedParamName = errors.New("exported method is not allowed to have unnamed parameter")
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// ErrInvalidExportedRetCount is returned when exported contract method has invalid return values count.
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ErrInvalidExportedRetCount = errors.New("exported method is not allowed to have more than one return value")
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)
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var (
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// Go language builtin functions.
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goBuiltins = []string{"len", "append", "panic", "make", "copy", "recover", "delete"}
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// Custom builtin utility functions.
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customBuiltins = []string{
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"FromAddress",
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}
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// Custom builtin utility functions that contain some meaningful code inside and
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// require code generation using standard rules, but sometimes (depending on
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// the expression usage condition) may be optimized at compile time.
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potentialCustomBuiltins = map[string]func(f ast.Expr) bool{
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"ToHash160": func(f ast.Expr) bool {
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c, ok := f.(*ast.CallExpr)
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if !ok {
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return false
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}
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if len(c.Args) != 1 {
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return false
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}
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switch c.Args[0].(type) {
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case *ast.BasicLit:
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return true
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default:
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return false
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}
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},
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}
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)
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// newGlobal creates a new global variable.
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func (c *codegen) newGlobal(pkg string, name string) {
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name = c.getIdentName(pkg, name)
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c.globals[name] = len(c.globals)
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}
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// getIdentName returns a fully-qualified name for a variable.
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func (c *codegen) getIdentName(pkg string, name string) string {
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if fullName, ok := c.importMap[pkg]; ok {
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pkg = fullName
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}
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return pkg + "." + name
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}
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// traverseGlobals visits and initializes global variables.
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// It returns `true` if contract has `_deploy` function.
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func (c *codegen) traverseGlobals() bool {
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var hasDefer bool
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var n, nConst int
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var hasUnusedCall bool
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var hasDeploy bool
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c.ForEachFile(func(f *ast.File, pkg *types.Package) {
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nv, nc, huc := countGlobals(f, !hasUnusedCall)
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n += nv
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nConst += nc
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if huc {
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hasUnusedCall = true
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}
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if !hasDeploy || !hasDefer {
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ast.Inspect(f, func(node ast.Node) bool {
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switch n := node.(type) {
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case *ast.FuncDecl:
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hasDeploy = hasDeploy || isDeployFunc(n)
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case *ast.DeferStmt:
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hasDefer = true
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return false
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}
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return true
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})
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}
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})
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if hasDefer {
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n++
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}
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if n > 255 {
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c.prog.BinWriter.Err = errors.New("too many global variables")
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return hasDeploy
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}
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if n != 0 {
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emit.Instruction(c.prog.BinWriter, opcode.INITSSLOT, []byte{byte(n)})
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}
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initOffset := c.prog.Len()
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emit.Instruction(c.prog.BinWriter, opcode.INITSLOT, []byte{0, 0})
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lastCnt, maxCnt := -1, -1
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c.ForEachPackage(func(pkg *packages.Package) {
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if n+nConst > 0 || hasUnusedCall {
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for _, f := range pkg.Syntax {
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c.fillImportMap(f, pkg)
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c.convertGlobals(f)
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}
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}
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for _, f := range pkg.Syntax {
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c.fillImportMap(f, pkg)
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var currMax int
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lastCnt, currMax = c.convertInitFuncs(f, pkg.Types, lastCnt)
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if currMax > maxCnt {
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maxCnt = currMax
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}
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}
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// because we reuse `convertFuncDecl` for init funcs,
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// we need to clear scope, so that global variables
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// encountered after will be recognized as globals.
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c.scope = nil
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})
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if c.globalInlineCount > maxCnt {
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maxCnt = c.globalInlineCount
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}
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// Here we remove `INITSLOT` if no code was emitted for `init` function.
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// Note that the `INITSSLOT` must stay in place.
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hasNoInit := initOffset+3 == c.prog.Len()
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if hasNoInit {
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buf := c.prog.Bytes()
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c.prog.Reset()
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c.prog.WriteBytes(buf[:initOffset])
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}
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if initOffset != 0 || !hasNoInit { // if there are some globals or `init()`.
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c.initEndOffset = c.prog.Len()
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emit.Opcodes(c.prog.BinWriter, opcode.RET)
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if maxCnt >= 0 {
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c.reverseOffsetMap[initOffset] = nameWithLocals{
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name: "init",
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count: maxCnt,
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}
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}
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}
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// store auxiliary variables after all others.
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if hasDefer {
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c.exceptionIndex = len(c.globals)
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c.globals[exceptionVarName] = c.exceptionIndex
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}
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return hasDeploy
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}
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// countGlobals counts the global variables in the program to add
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// them with the stack size of the function.
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// Second returned argument contains the amount of global constants.
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// If checkUnusedCalls set to true then unnamed global variables containing call
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// will be searched for and their presence is returned as the last argument.
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func countGlobals(f ast.Node, checkUnusedCalls bool) (int, int, bool) {
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var numVar, numConst int
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var hasUnusedCall bool
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ast.Inspect(f, func(node ast.Node) bool {
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switch n := node.(type) {
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// Skip all function declarations if we have already encountered `defer`.
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case *ast.FuncDecl:
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return false
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// After skipping all funcDecls, we are sure that each value spec
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// is a globally declared variable or constant.
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case *ast.GenDecl:
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isVar := n.Tok == token.VAR
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if isVar || n.Tok == token.CONST {
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for _, s := range n.Specs {
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valueSpec := s.(*ast.ValueSpec)
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multiRet := len(valueSpec.Values) != 0 && len(valueSpec.Names) != len(valueSpec.Values) // e.g. var A, B = f() where func f() (int, int)
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for j, id := range valueSpec.Names {
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if id.Name != "_" { // If variable has name, then it's treated as used - that's countGlobals' caller responsibility to guarantee that.
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if isVar {
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numVar++
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} else {
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numConst++
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}
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} else if isVar && len(valueSpec.Values) != 0 && checkUnusedCalls && !hasUnusedCall {
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indexToCheck := j
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if multiRet {
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indexToCheck = 0
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}
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hasUnusedCall = containsCall(valueSpec.Values[indexToCheck])
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}
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}
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}
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}
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return false
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}
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return true
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})
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return numVar, numConst, hasUnusedCall
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}
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// containsCall traverses node and looks if it contains a function or method call.
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func containsCall(n ast.Node) bool {
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var hasCall bool
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ast.Inspect(n, func(node ast.Node) bool {
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switch node.(type) {
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case *ast.CallExpr:
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hasCall = true
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case *ast.Ident:
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// Can safely skip idents immediately, we're interested at function calls only.
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return false
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}
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return !hasCall
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})
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return hasCall
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}
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// isExprNil looks if the given expression is a `nil`.
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func isExprNil(e ast.Expr) bool {
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v, ok := e.(*ast.Ident)
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return ok && v.Name == "nil"
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}
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// indexOfStruct returns the index of the given field inside that struct.
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// If the struct does not contain that field, it will return -1.
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func indexOfStruct(strct *types.Struct, fldName string) int {
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for i := 0; i < strct.NumFields(); i++ {
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if strct.Field(i).Name() == fldName {
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return i
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}
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}
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return -1
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}
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type funcUsage map[string]bool
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func (f funcUsage) funcUsed(name string) bool {
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_, ok := f[name]
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return ok
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}
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// lastStmtIsReturn checks if the last statement of the declaration was return statement.
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func lastStmtIsReturn(body *ast.BlockStmt) (b bool) {
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if l := len(body.List); l != 0 {
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switch inner := body.List[l-1].(type) {
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case *ast.BlockStmt:
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return lastStmtIsReturn(inner)
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case *ast.ReturnStmt:
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return true
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default:
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return false
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}
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}
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return false
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}
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// analyzePkgOrder sets the order in which packages should be processed.
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// From Go spec:
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//
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// A package with no imports is initialized by assigning initial values to all its package-level variables
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// followed by calling all init functions in the order they appear in the source, possibly in multiple files,
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// as presented to the compiler. If a package has imports, the imported packages are initialized before
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// initializing the package itself. If multiple packages import a package, the imported package
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// will be initialized only once. The importing of packages, by construction, guarantees
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// that there can be no cyclic initialization dependencies.
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func (c *codegen) analyzePkgOrder() {
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seen := make(map[string]bool)
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info := c.buildInfo.program[0]
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c.visitPkg(info, seen)
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}
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func (c *codegen) visitPkg(pkg *packages.Package, seen map[string]bool) {
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if seen[pkg.PkgPath] {
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return
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}
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for _, imp := range pkg.Types.Imports() {
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c.visitPkg(pkg.Imports[imp.Path()], seen)
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}
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seen[pkg.PkgPath] = true
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c.packages = append(c.packages, pkg.PkgPath)
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c.packageCache[pkg.PkgPath] = pkg
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}
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func (c *codegen) fillDocumentInfo() {
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fset := c.buildInfo.config.Fset
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fset.Iterate(func(f *token.File) bool {
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filePath := f.Position(f.Pos(0)).Filename
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c.docIndex[filePath] = len(c.documents)
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c.documents = append(c.documents, filePath)
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return true
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})
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}
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// analyzeFuncAndGlobalVarUsage traverses all code and returns a map with functions
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// which should be present in the emitted code.
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// This is done using BFS starting from exported functions or
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// the function used in variable declarations (graph edge corresponds to
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// the function being called in declaration). It also analyzes global variables
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// usage preserving the same traversal strategy and rules. Unused global variables
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// are renamed to "_" in the end. Global variable is treated as "used" iff:
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// 1. It belongs either to main or to exported package AND is used directly from the exported (or _init\_deploy) method of the main package.
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// 2. It belongs either to main or to exported package AND is used non-directly from the exported (or _init\_deploy) method of the main package
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// (e.g. via series of function calls or in some expression that is "used").
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// 3. It belongs either to main or to exported package AND contains function call inside its value definition.
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func (c *codegen) analyzeFuncAndGlobalVarUsage() funcUsage {
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type declPair struct {
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decl *ast.FuncDecl
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importMap map[string]string
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path string
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}
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// globalVar represents a global variable declaration node with the corresponding package context.
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type globalVar struct {
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decl *ast.GenDecl // decl contains global variables declaration node (there can be multiple declarations in a single node).
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specIdx int // specIdx is the index of variable specification in the list of GenDecl specifications.
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varIdx int // varIdx is the index of variable name in the specification names.
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ident *ast.Ident // ident is a named global variable identifier got from the specified node.
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importMap map[string]string
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path string
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}
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// nodeCache contains top-level function declarations.
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nodeCache := make(map[string]declPair)
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// globalVarsCache contains both used and unused declared named global vars.
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globalVarsCache := make(map[string]globalVar)
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// diff contains used functions that are not yet marked as "used" and those definition
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// requires traversal in the subsequent stages.
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diff := funcUsage{}
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// globalVarsDiff contains used named global variables that are not yet marked as "used"
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// and those declaration requires traversal in the subsequent stages.
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globalVarsDiff := funcUsage{}
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// usedExpressions contains a set of ast.Nodes that are used in the program and need to be evaluated
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// (either they are used from the used functions OR belong to global variable declaration and surrounded by a function call)
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var usedExpressions []nodeContext
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c.ForEachFile(func(f *ast.File, pkg *types.Package) {
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var pkgPath string
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isMain := pkg == c.mainPkg.Types
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if !isMain {
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pkgPath = pkg.Path()
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}
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ast.Inspect(f, func(node ast.Node) bool {
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switch n := node.(type) {
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case *ast.CallExpr:
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// functions invoked in variable declarations in imported packages
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// are marked as used.
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var name string
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switch t := n.Fun.(type) {
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case *ast.Ident:
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name = c.getIdentName(pkgPath, t.Name)
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case *ast.SelectorExpr:
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name, _ = c.getFuncNameFromSelector(t)
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default:
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return true
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}
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diff[name] = true
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case *ast.FuncDecl:
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name := c.getFuncNameFromDecl(pkgPath, n)
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// exported functions and methods are always assumed to be used
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if isMain && n.Name.IsExported() || isInitFunc(n) || isDeployFunc(n) {
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diff[name] = true
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}
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// exported functions are not allowed to have unnamed parameters or multiple return values
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if isMain && n.Name.IsExported() && n.Recv == nil {
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if n.Type.Params.List != nil {
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for i, param := range n.Type.Params.List {
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if param.Names == nil {
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c.prog.Err = fmt.Errorf("%w: %s", ErrMissingExportedParamName, n.Name)
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return false // Program is invalid.
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}
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for _, name := range param.Names {
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if name == nil || name.Name == "_" {
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c.prog.Err = fmt.Errorf("%w: %s/%d", ErrMissingExportedParamName, n.Name, i)
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return false // Program is invalid.
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}
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}
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}
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}
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if retCnt := n.Type.Results.NumFields(); retCnt > 1 {
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c.prog.Err = fmt.Errorf("%w: %s/%d return values", ErrInvalidExportedRetCount, n.Name, retCnt)
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}
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}
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nodeCache[name] = declPair{n, c.importMap, pkgPath}
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return false // will be processed in the next stage
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case *ast.GenDecl:
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// After skipping all funcDecls, we are sure that each value spec
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// is a globally declared variable or constant. We need to gather global
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// vars from both main and imported packages.
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if n.Tok == token.VAR {
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for i, s := range n.Specs {
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valSpec := s.(*ast.ValueSpec)
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for j, id := range valSpec.Names {
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if id.Name != "_" {
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name := c.getIdentName(pkgPath, id.Name)
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globalVarsCache[name] = globalVar{
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decl: n,
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specIdx: i,
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varIdx: j,
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ident: id,
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importMap: c.importMap,
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path: pkgPath,
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}
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}
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// Traverse both named/unnamed global variables, check whether function/method call
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// is present inside variable value and if so, mark all its children as "used" for
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// further traversal and evaluation.
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if len(valSpec.Values) == 0 {
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continue
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}
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multiRet := len(valSpec.Values) != len(valSpec.Names)
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if (j == 0 || !multiRet) && containsCall(valSpec.Values[j]) {
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usedExpressions = append(usedExpressions, nodeContext{
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node: valSpec.Values[j],
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path: pkgPath,
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importMap: c.importMap,
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typeInfo: c.typeInfo,
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currPkg: c.currPkg,
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})
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}
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}
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}
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}
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}
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return true
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})
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})
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if c.prog.Err != nil {
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return nil
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}
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// Handle nodes that contain (or surrounded by) function calls and are a part
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// of global variable declaration.
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c.pickVarsFromNodes(usedExpressions, func(name string) {
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if _, gOK := globalVarsCache[name]; gOK {
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globalVarsDiff[name] = true
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}
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})
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// Traverse the set of upper-layered used functions and construct the functions' usage map.
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// At the same time, go through the whole set of used functions and mark global vars used
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// from these functions as "used". Also mark the global variables from the previous step
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// and their children as "used".
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usage := funcUsage{}
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globalVarsUsage := funcUsage{}
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for len(diff) != 0 || len(globalVarsDiff) != 0 {
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nextDiff := funcUsage{}
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nextGlobalVarsDiff := funcUsage{}
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usedExpressions = usedExpressions[:0]
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for name := range diff {
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fd, ok := nodeCache[name]
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if !ok || usage[name] {
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continue
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}
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usage[name] = true
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pkg := c.mainPkg
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if fd.path != "" {
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pkg = c.packageCache[fd.path]
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}
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c.typeInfo = pkg.TypesInfo
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c.currPkg = pkg
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c.importMap = fd.importMap
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ast.Inspect(fd.decl, func(node ast.Node) bool {
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switch n := node.(type) {
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case *ast.CallExpr:
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switch t := n.Fun.(type) {
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case *ast.Ident:
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nextDiff[c.getIdentName(fd.path, t.Name)] = true
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case *ast.SelectorExpr:
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name, _ := c.getFuncNameFromSelector(t)
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nextDiff[name] = true
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}
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}
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return true
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})
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usedExpressions = append(usedExpressions, nodeContext{
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node: fd.decl.Body,
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path: fd.path,
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importMap: c.importMap,
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typeInfo: c.typeInfo,
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currPkg: c.currPkg,
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})
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}
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// Traverse used global vars in a separate cycle so that we're sure there's no other unrelated vars.
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// Mark their children as "used".
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for name := range globalVarsDiff {
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fd, ok := globalVarsCache[name]
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if !ok || globalVarsUsage[name] {
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continue
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}
|
|
globalVarsUsage[name] = true
|
|
pkg := c.mainPkg
|
|
if fd.path != "" {
|
|
pkg = c.packageCache[fd.path]
|
|
}
|
|
valSpec := fd.decl.Specs[fd.specIdx].(*ast.ValueSpec)
|
|
if len(valSpec.Values) == 0 {
|
|
continue
|
|
}
|
|
multiRet := len(valSpec.Values) != len(valSpec.Names)
|
|
if fd.varIdx == 0 || !multiRet {
|
|
usedExpressions = append(usedExpressions, nodeContext{
|
|
node: valSpec.Values[fd.varIdx],
|
|
path: fd.path,
|
|
importMap: fd.importMap,
|
|
typeInfo: pkg.TypesInfo,
|
|
currPkg: pkg,
|
|
})
|
|
}
|
|
}
|
|
c.pickVarsFromNodes(usedExpressions, func(name string) {
|
|
if _, gOK := globalVarsCache[name]; gOK {
|
|
nextGlobalVarsDiff[name] = true
|
|
}
|
|
})
|
|
diff = nextDiff
|
|
globalVarsDiff = nextGlobalVarsDiff
|
|
}
|
|
|
|
// Tiny hack: rename all remaining unused global vars. After that these unused
|
|
// vars will be handled as any other unnamed unused variables, i.e.
|
|
// c.traverseGlobals() won't take them into account during static slot creation
|
|
// and the code won't be emitted for them.
|
|
for name, node := range globalVarsCache {
|
|
if _, ok := globalVarsUsage[name]; !ok {
|
|
node.ident.Name = "_"
|
|
}
|
|
}
|
|
return usage
|
|
}
|
|
|
|
// nodeContext contains ast node with the corresponding import map, type info and package information
|
|
// required to retrieve fully qualified node name (if so).
|
|
type nodeContext struct {
|
|
node ast.Node
|
|
path string
|
|
importMap map[string]string
|
|
typeInfo *types.Info
|
|
currPkg *packages.Package
|
|
}
|
|
|
|
// derive returns provided node with the parent's context.
|
|
func (c nodeContext) derive(n ast.Node) nodeContext {
|
|
return nodeContext{
|
|
node: n,
|
|
path: c.path,
|
|
importMap: c.importMap,
|
|
typeInfo: c.typeInfo,
|
|
currPkg: c.currPkg,
|
|
}
|
|
}
|
|
|
|
// pickVarsFromNodes searches for variables used in the given set of nodes
|
|
// calling markAsUsed for each variable. Be careful while using codegen after
|
|
// pickVarsFromNodes, it changes importMap, currPkg and typeInfo.
|
|
func (c *codegen) pickVarsFromNodes(nodes []nodeContext, markAsUsed func(name string)) {
|
|
for len(nodes) != 0 {
|
|
var nextExprToCheck []nodeContext
|
|
for _, val := range nodes {
|
|
// Set variable context for proper name extraction.
|
|
c.importMap = val.importMap
|
|
c.currPkg = val.currPkg
|
|
c.typeInfo = val.typeInfo
|
|
ast.Inspect(val.node, func(node ast.Node) bool {
|
|
switch n := node.(type) {
|
|
case *ast.KeyValueExpr: // var _ = f() + CustomInt{Int: Unused}.Int + 3 => mark Unused as "used".
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(n.Value))
|
|
return false
|
|
case *ast.CallExpr:
|
|
switch t := n.Fun.(type) {
|
|
case *ast.Ident:
|
|
// Do nothing, used functions are handled in a separate cycle.
|
|
case *ast.SelectorExpr:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(t))
|
|
}
|
|
for _, arg := range n.Args {
|
|
switch arg.(type) {
|
|
case *ast.BasicLit:
|
|
default:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(arg))
|
|
}
|
|
}
|
|
return false
|
|
case *ast.SelectorExpr:
|
|
if c.typeInfo.Selections[n] != nil {
|
|
switch t := n.X.(type) {
|
|
case *ast.Ident:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(t))
|
|
case *ast.CompositeLit:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(t))
|
|
case *ast.SelectorExpr: // imp_pkg.Anna.GetAge() => mark Anna (exported global struct) as used.
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(t))
|
|
}
|
|
} else {
|
|
ident := n.X.(*ast.Ident)
|
|
name := c.getIdentName(ident.Name, n.Sel.Name)
|
|
markAsUsed(name)
|
|
}
|
|
return false
|
|
case *ast.CompositeLit: // var _ = f(1) + []int{1, Unused, 3}[1] => mark Unused as "used".
|
|
for _, e := range n.Elts {
|
|
switch e.(type) {
|
|
case *ast.BasicLit:
|
|
default:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(e))
|
|
}
|
|
}
|
|
return false
|
|
case *ast.Ident:
|
|
name := c.getIdentName(val.path, n.Name)
|
|
markAsUsed(name)
|
|
return false
|
|
case *ast.DeferStmt:
|
|
nextExprToCheck = append(nextExprToCheck, val.derive(n.Call.Fun))
|
|
return false
|
|
case *ast.BasicLit:
|
|
return false
|
|
}
|
|
return true
|
|
})
|
|
}
|
|
nodes = nextExprToCheck
|
|
}
|
|
}
|
|
|
|
func isGoBuiltin(name string) bool {
|
|
for i := range goBuiltins {
|
|
if name == goBuiltins[i] {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
func isCustomBuiltin(f *funcScope) bool {
|
|
if !isInteropPath(f.pkg.Path()) {
|
|
return false
|
|
}
|
|
for _, n := range customBuiltins {
|
|
if f.name == n {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
func isPotentialCustomBuiltin(f *funcScope, expr ast.Expr) bool {
|
|
if !isInteropPath(f.pkg.Path()) {
|
|
return false
|
|
}
|
|
for name, isBuiltin := range potentialCustomBuiltins {
|
|
if f.name == name && isBuiltin(expr) {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|
|
func isSyscall(fun *funcScope) bool {
|
|
if fun.selector == nil || fun.pkg == nil || !isInteropPath(fun.pkg.Path()) {
|
|
return false
|
|
}
|
|
return fun.pkg.Name() == "neogointernal" && (strings.HasPrefix(fun.name, "Syscall") ||
|
|
strings.HasPrefix(fun.name, "Opcode") || strings.HasPrefix(fun.name, "CallWithToken"))
|
|
}
|
|
|
|
const interopPrefix = "github.com/nspcc-dev/neo-go/pkg/interop"
|
|
|
|
func isInteropPath(s string) bool {
|
|
return strings.HasPrefix(s, interopPrefix)
|
|
}
|
|
|
|
// canConvert returns true if type doesn't need to be converted on type assertion.
|
|
func canConvert(s string) bool {
|
|
if len(s) != 0 && s[0] == '*' {
|
|
s = s[1:]
|
|
}
|
|
if isInteropPath(s) {
|
|
s = s[len(interopPrefix):]
|
|
return s != "/iterator.Iterator" && s != "/storage.Context" &&
|
|
s != "/native/ledger.Block" && s != "/native/ledger.Transaction" &&
|
|
s != "/native/management.Contract" && s != "/native/neo.AccountState" &&
|
|
s != "/native/ledger.BlockSR"
|
|
}
|
|
return true
|
|
}
|
|
|
|
// canInline returns true if the function is to be inlined.
|
|
// The list of functions that can be inlined is not static, it depends on the function usages.
|
|
// isBuiltin denotes whether code generation for dynamic builtin function will be performed
|
|
// manually.
|
|
func canInline(s string, name string, isBuiltin bool) bool {
|
|
if strings.HasPrefix(s, "github.com/nspcc-dev/neo-go/pkg/compiler/testdata/inline") {
|
|
return true
|
|
}
|
|
if !isInteropPath(s) {
|
|
return false
|
|
}
|
|
return !strings.HasPrefix(s[len(interopPrefix):], "/neogointernal") &&
|
|
!(strings.HasPrefix(s[len(interopPrefix):], "/util") && name == "FromAddress") &&
|
|
!(strings.HasPrefix(s[len(interopPrefix):], "/lib/address") && name == "ToHash160" && isBuiltin)
|
|
}
|