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456 lines
16 KiB
456 lines
16 KiB
package compiler
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// This file implements the 'defer' keyword in Go.
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// Defer statements are implemented by transforming the function in the
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// following way:
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// * Creating an alloca in the entry block that contains a pointer (initially
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// null) to the linked list of defer frames.
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// * Every time a defer statement is executed, a new defer frame is created
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// using alloca with a pointer to the previous defer frame, and the head
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// pointer in the entry block is replaced with a pointer to this defer
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// frame.
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// * On return, runtime.rundefers is called which calls all deferred functions
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// from the head of the linked list until it has gone through all defer
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// frames.
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import (
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"go/types"
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"github.com/tinygo-org/tinygo/compiler/llvmutil"
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"golang.org/x/tools/go/ssa"
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"tinygo.org/x/go-llvm"
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)
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// deferInitFunc sets up this function for future deferred calls. It must be
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// called from within the entry block when this function contains deferred
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// calls.
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func (b *builder) deferInitFunc() {
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// Some setup.
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b.deferFuncs = make(map[*ssa.Function]int)
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b.deferInvokeFuncs = make(map[string]int)
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b.deferClosureFuncs = make(map[*ssa.Function]int)
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b.deferExprFuncs = make(map[ssa.Value]int)
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b.deferBuiltinFuncs = make(map[ssa.Value]deferBuiltin)
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// Create defer list pointer.
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deferType := llvm.PointerType(b.getLLVMRuntimeType("_defer"), 0)
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b.deferPtr = b.CreateAlloca(deferType, "deferPtr")
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b.CreateStore(llvm.ConstPointerNull(deferType), b.deferPtr)
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}
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// isInLoop checks if there is a path from a basic block to itself.
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func isInLoop(start *ssa.BasicBlock) bool {
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// Use a breadth-first search to scan backwards through the block graph.
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queue := []*ssa.BasicBlock{start}
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checked := map[*ssa.BasicBlock]struct{}{}
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for len(queue) > 0 {
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// pop a block off of the queue
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block := queue[len(queue)-1]
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queue = queue[:len(queue)-1]
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// Search through predecessors.
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// Searching backwards means that this is pretty fast when the block is close to the start of the function.
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// Defers are often placed near the start of the function.
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for _, pred := range block.Preds {
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if pred == start {
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// cycle found
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return true
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}
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if _, ok := checked[pred]; ok {
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// block already checked
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continue
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}
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// add to queue and checked map
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queue = append(queue, pred)
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checked[pred] = struct{}{}
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}
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}
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return false
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}
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// createDefer emits a single defer instruction, to be run when this function
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// returns.
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func (b *builder) createDefer(instr *ssa.Defer) {
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// The pointer to the previous defer struct, which we will replace to
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// make a linked list.
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next := b.CreateLoad(b.deferPtr, "defer.next")
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var values []llvm.Value
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valueTypes := []llvm.Type{b.uintptrType, next.Type()}
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if instr.Call.IsInvoke() {
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// Method call on an interface.
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// Get callback type number.
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methodName := instr.Call.Method.FullName()
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if _, ok := b.deferInvokeFuncs[methodName]; !ok {
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b.deferInvokeFuncs[methodName] = len(b.allDeferFuncs)
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b.allDeferFuncs = append(b.allDeferFuncs, &instr.Call)
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}
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callback := llvm.ConstInt(b.uintptrType, uint64(b.deferInvokeFuncs[methodName]), false)
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// Collect all values to be put in the struct (starting with
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// runtime._defer fields, followed by the call parameters).
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itf := b.getValue(instr.Call.Value) // interface
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typecode := b.CreateExtractValue(itf, 0, "invoke.func.typecode")
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receiverValue := b.CreateExtractValue(itf, 1, "invoke.func.receiver")
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values = []llvm.Value{callback, next, typecode, receiverValue}
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valueTypes = append(valueTypes, b.uintptrType, b.i8ptrType)
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for _, arg := range instr.Call.Args {
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val := b.getValue(arg)
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values = append(values, val)
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valueTypes = append(valueTypes, val.Type())
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}
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} else if callee, ok := instr.Call.Value.(*ssa.Function); ok {
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// Regular function call.
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if _, ok := b.deferFuncs[callee]; !ok {
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b.deferFuncs[callee] = len(b.allDeferFuncs)
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b.allDeferFuncs = append(b.allDeferFuncs, callee)
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}
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callback := llvm.ConstInt(b.uintptrType, uint64(b.deferFuncs[callee]), false)
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// Collect all values to be put in the struct (starting with
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// runtime._defer fields).
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values = []llvm.Value{callback, next}
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for _, param := range instr.Call.Args {
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llvmParam := b.getValue(param)
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values = append(values, llvmParam)
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valueTypes = append(valueTypes, llvmParam.Type())
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}
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} else if makeClosure, ok := instr.Call.Value.(*ssa.MakeClosure); ok {
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// Immediately applied function literal with free variables.
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// Extract the context from the closure. We won't need the function
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// pointer.
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// TODO: ignore this closure entirely and put pointers to the free
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// variables directly in the defer struct, avoiding a memory allocation.
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closure := b.getValue(instr.Call.Value)
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context := b.CreateExtractValue(closure, 0, "")
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// Get the callback number.
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fn := makeClosure.Fn.(*ssa.Function)
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if _, ok := b.deferClosureFuncs[fn]; !ok {
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b.deferClosureFuncs[fn] = len(b.allDeferFuncs)
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b.allDeferFuncs = append(b.allDeferFuncs, makeClosure)
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}
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callback := llvm.ConstInt(b.uintptrType, uint64(b.deferClosureFuncs[fn]), false)
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// Collect all values to be put in the struct (starting with
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// runtime._defer fields, followed by all parameters including the
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// context pointer).
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values = []llvm.Value{callback, next}
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for _, param := range instr.Call.Args {
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llvmParam := b.getValue(param)
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values = append(values, llvmParam)
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valueTypes = append(valueTypes, llvmParam.Type())
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}
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values = append(values, context)
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valueTypes = append(valueTypes, context.Type())
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} else if builtin, ok := instr.Call.Value.(*ssa.Builtin); ok {
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var argTypes []types.Type
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var argValues []llvm.Value
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for _, arg := range instr.Call.Args {
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argTypes = append(argTypes, arg.Type())
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argValues = append(argValues, b.getValue(arg))
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}
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if _, ok := b.deferBuiltinFuncs[instr.Call.Value]; !ok {
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b.deferBuiltinFuncs[instr.Call.Value] = deferBuiltin{
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callName: builtin.Name(),
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pos: builtin.Pos(),
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argTypes: argTypes,
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callback: len(b.allDeferFuncs),
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}
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b.allDeferFuncs = append(b.allDeferFuncs, instr.Call.Value)
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}
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callback := llvm.ConstInt(b.uintptrType, uint64(b.deferBuiltinFuncs[instr.Call.Value].callback), false)
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// Collect all values to be put in the struct (starting with
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// runtime._defer fields).
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values = []llvm.Value{callback, next}
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for _, param := range argValues {
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values = append(values, param)
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valueTypes = append(valueTypes, param.Type())
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}
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} else {
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funcValue := b.getValue(instr.Call.Value)
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if _, ok := b.deferExprFuncs[instr.Call.Value]; !ok {
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b.deferExprFuncs[instr.Call.Value] = len(b.allDeferFuncs)
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b.allDeferFuncs = append(b.allDeferFuncs, &instr.Call)
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}
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callback := llvm.ConstInt(b.uintptrType, uint64(b.deferExprFuncs[instr.Call.Value]), false)
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// Collect all values to be put in the struct (starting with
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// runtime._defer fields, followed by all parameters including the
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// context pointer).
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values = []llvm.Value{callback, next, funcValue}
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valueTypes = append(valueTypes, funcValue.Type())
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for _, param := range instr.Call.Args {
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llvmParam := b.getValue(param)
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values = append(values, llvmParam)
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valueTypes = append(valueTypes, llvmParam.Type())
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}
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}
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// Make a struct out of the collected values to put in the defer frame.
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deferFrameType := b.ctx.StructType(valueTypes, false)
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deferFrame := llvm.ConstNull(deferFrameType)
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for i, value := range values {
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deferFrame = b.CreateInsertValue(deferFrame, value, i, "")
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}
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// Put this struct in an allocation.
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var alloca llvm.Value
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if !isInLoop(instr.Block()) {
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// This can safely use a stack allocation.
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alloca = llvmutil.CreateEntryBlockAlloca(b.Builder, deferFrameType, "defer.alloca")
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} else {
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// This may be hit a variable number of times, so use a heap allocation.
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size := b.targetData.TypeAllocSize(deferFrameType)
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sizeValue := llvm.ConstInt(b.uintptrType, size, false)
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nilPtr := llvm.ConstNull(b.i8ptrType)
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allocCall := b.createRuntimeCall("alloc", []llvm.Value{sizeValue, nilPtr}, "defer.alloc.call")
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alloca = b.CreateBitCast(allocCall, llvm.PointerType(deferFrameType, 0), "defer.alloc")
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}
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if b.NeedsStackObjects {
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b.trackPointer(alloca)
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}
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b.CreateStore(deferFrame, alloca)
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// Push it on top of the linked list by replacing deferPtr.
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allocaCast := b.CreateBitCast(alloca, next.Type(), "defer.alloca.cast")
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b.CreateStore(allocaCast, b.deferPtr)
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}
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// createRunDefers emits code to run all deferred functions.
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func (b *builder) createRunDefers() {
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// Add a loop like the following:
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// for stack != nil {
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// _stack := stack
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// stack = stack.next
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// switch _stack.callback {
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// case 0:
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// // run first deferred call
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// case 1:
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// // run second deferred call
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// // etc.
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// default:
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// unreachable
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// }
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// }
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// Create loop.
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loophead := b.ctx.AddBasicBlock(b.llvmFn, "rundefers.loophead")
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loop := b.ctx.AddBasicBlock(b.llvmFn, "rundefers.loop")
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unreachable := b.ctx.AddBasicBlock(b.llvmFn, "rundefers.default")
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end := b.ctx.AddBasicBlock(b.llvmFn, "rundefers.end")
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b.CreateBr(loophead)
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// Create loop head:
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// for stack != nil {
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b.SetInsertPointAtEnd(loophead)
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deferData := b.CreateLoad(b.deferPtr, "")
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stackIsNil := b.CreateICmp(llvm.IntEQ, deferData, llvm.ConstPointerNull(deferData.Type()), "stackIsNil")
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b.CreateCondBr(stackIsNil, end, loop)
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// Create loop body:
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// _stack := stack
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// stack = stack.next
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// switch stack.callback {
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b.SetInsertPointAtEnd(loop)
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nextStackGEP := b.CreateInBoundsGEP(deferData, []llvm.Value{
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llvm.ConstInt(b.ctx.Int32Type(), 0, false),
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llvm.ConstInt(b.ctx.Int32Type(), 1, false), // .next field
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}, "stack.next.gep")
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nextStack := b.CreateLoad(nextStackGEP, "stack.next")
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b.CreateStore(nextStack, b.deferPtr)
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gep := b.CreateInBoundsGEP(deferData, []llvm.Value{
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llvm.ConstInt(b.ctx.Int32Type(), 0, false),
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llvm.ConstInt(b.ctx.Int32Type(), 0, false), // .callback field
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}, "callback.gep")
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callback := b.CreateLoad(gep, "callback")
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sw := b.CreateSwitch(callback, unreachable, len(b.allDeferFuncs))
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for i, callback := range b.allDeferFuncs {
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// Create switch case, for example:
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// case 0:
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// // run first deferred call
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block := b.ctx.AddBasicBlock(b.llvmFn, "rundefers.callback")
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sw.AddCase(llvm.ConstInt(b.uintptrType, uint64(i), false), block)
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b.SetInsertPointAtEnd(block)
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switch callback := callback.(type) {
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case *ssa.CallCommon:
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// Call on an value or interface value.
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// Get the real defer struct type and cast to it.
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valueTypes := []llvm.Type{b.uintptrType, llvm.PointerType(b.getLLVMRuntimeType("_defer"), 0)}
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if !callback.IsInvoke() {
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//Expect funcValue to be passed through the defer frame.
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valueTypes = append(valueTypes, b.getFuncType(callback.Signature()))
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} else {
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//Expect typecode
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valueTypes = append(valueTypes, b.uintptrType, b.i8ptrType)
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}
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for _, arg := range callback.Args {
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valueTypes = append(valueTypes, b.getLLVMType(arg.Type()))
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}
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deferFrameType := b.ctx.StructType(valueTypes, false)
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deferFramePtr := b.CreateBitCast(deferData, llvm.PointerType(deferFrameType, 0), "deferFrame")
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// Extract the params from the struct (including receiver).
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forwardParams := []llvm.Value{}
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zero := llvm.ConstInt(b.ctx.Int32Type(), 0, false)
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for i := 2; i < len(valueTypes); i++ {
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gep := b.CreateInBoundsGEP(deferFramePtr, []llvm.Value{zero, llvm.ConstInt(b.ctx.Int32Type(), uint64(i), false)}, "gep")
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forwardParam := b.CreateLoad(gep, "param")
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forwardParams = append(forwardParams, forwardParam)
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}
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var fnPtr llvm.Value
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if !callback.IsInvoke() {
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// Isolate the func value.
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funcValue := forwardParams[0]
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forwardParams = forwardParams[1:]
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//Get function pointer and context
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fp, context := b.decodeFuncValue(funcValue, callback.Signature())
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fnPtr = fp
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//Pass context
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forwardParams = append(forwardParams, context)
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} else {
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// Move typecode from the start to the end of the list of
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// parameters.
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forwardParams = append(forwardParams[1:], forwardParams[0])
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fnPtr = b.getInvokeFunction(callback)
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// Add the context parameter. An interface call cannot also be a
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// closure but we have to supply the parameter anyway for platforms
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// with a strict calling convention.
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forwardParams = append(forwardParams, llvm.Undef(b.i8ptrType))
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}
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// Parent coroutine handle.
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forwardParams = append(forwardParams, llvm.Undef(b.i8ptrType))
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b.createCall(fnPtr, forwardParams, "")
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case *ssa.Function:
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// Direct call.
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// Get the real defer struct type and cast to it.
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valueTypes := []llvm.Type{b.uintptrType, llvm.PointerType(b.getLLVMRuntimeType("_defer"), 0)}
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for _, param := range getParams(callback.Signature) {
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valueTypes = append(valueTypes, b.getLLVMType(param.Type()))
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}
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deferFrameType := b.ctx.StructType(valueTypes, false)
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deferFramePtr := b.CreateBitCast(deferData, llvm.PointerType(deferFrameType, 0), "deferFrame")
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// Extract the params from the struct.
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forwardParams := []llvm.Value{}
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zero := llvm.ConstInt(b.ctx.Int32Type(), 0, false)
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for i := range getParams(callback.Signature) {
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gep := b.CreateInBoundsGEP(deferFramePtr, []llvm.Value{zero, llvm.ConstInt(b.ctx.Int32Type(), uint64(i+2), false)}, "gep")
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forwardParam := b.CreateLoad(gep, "param")
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forwardParams = append(forwardParams, forwardParam)
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}
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// Plain TinyGo functions add some extra parameters to implement async functionality and function recievers.
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// These parameters should not be supplied when calling into an external C/ASM function.
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if !b.getFunctionInfo(callback).exported {
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// Add the context parameter. We know it is ignored by the receiving
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// function, but we have to pass one anyway.
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forwardParams = append(forwardParams, llvm.Undef(b.i8ptrType))
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// Parent coroutine handle.
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forwardParams = append(forwardParams, llvm.Undef(b.i8ptrType))
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}
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// Call real function.
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b.createCall(b.getFunction(callback), forwardParams, "")
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case *ssa.MakeClosure:
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// Get the real defer struct type and cast to it.
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fn := callback.Fn.(*ssa.Function)
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valueTypes := []llvm.Type{b.uintptrType, llvm.PointerType(b.getLLVMRuntimeType("_defer"), 0)}
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params := fn.Signature.Params()
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for i := 0; i < params.Len(); i++ {
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valueTypes = append(valueTypes, b.getLLVMType(params.At(i).Type()))
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}
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valueTypes = append(valueTypes, b.i8ptrType) // closure
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deferFrameType := b.ctx.StructType(valueTypes, false)
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deferFramePtr := b.CreateBitCast(deferData, llvm.PointerType(deferFrameType, 0), "deferFrame")
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// Extract the params from the struct.
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forwardParams := []llvm.Value{}
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zero := llvm.ConstInt(b.ctx.Int32Type(), 0, false)
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for i := 2; i < len(valueTypes); i++ {
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gep := b.CreateInBoundsGEP(deferFramePtr, []llvm.Value{zero, llvm.ConstInt(b.ctx.Int32Type(), uint64(i), false)}, "")
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forwardParam := b.CreateLoad(gep, "param")
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forwardParams = append(forwardParams, forwardParam)
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}
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// Parent coroutine handle.
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forwardParams = append(forwardParams, llvm.Undef(b.i8ptrType))
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// Call deferred function.
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b.createCall(b.getFunction(fn), forwardParams, "")
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case *ssa.Builtin:
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db := b.deferBuiltinFuncs[callback]
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//Get parameter types
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valueTypes := []llvm.Type{b.uintptrType, llvm.PointerType(b.getLLVMRuntimeType("_defer"), 0)}
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//Get signature from call results
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params := callback.Type().Underlying().(*types.Signature).Params()
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for i := 0; i < params.Len(); i++ {
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valueTypes = append(valueTypes, b.getLLVMType(params.At(i).Type()))
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}
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deferFrameType := b.ctx.StructType(valueTypes, false)
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deferFramePtr := b.CreateBitCast(deferData, llvm.PointerType(deferFrameType, 0), "deferFrame")
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// Extract the params from the struct.
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var argValues []llvm.Value
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zero := llvm.ConstInt(b.ctx.Int32Type(), 0, false)
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for i := 0; i < params.Len(); i++ {
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gep := b.CreateInBoundsGEP(deferFramePtr, []llvm.Value{zero, llvm.ConstInt(b.ctx.Int32Type(), uint64(i+2), false)}, "gep")
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forwardParam := b.CreateLoad(gep, "param")
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argValues = append(argValues, forwardParam)
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}
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_, err := b.createBuiltin(db.argTypes, argValues, db.callName, db.pos)
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if err != nil {
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b.diagnostics = append(b.diagnostics, err)
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}
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default:
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panic("unknown deferred function type")
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}
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// Branch back to the start of the loop.
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b.CreateBr(loophead)
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}
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// Create default unreachable block:
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// default:
|
|
// unreachable
|
|
// }
|
|
b.SetInsertPointAtEnd(unreachable)
|
|
b.CreateUnreachable()
|
|
|
|
// End of loop.
|
|
b.SetInsertPointAtEnd(end)
|
|
}
|
|
|