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556 lines
20 KiB
556 lines
20 KiB
package compiler
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// This file manages symbols, that is, functions and globals. It reads their
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// pragmas, determines the link name, etc.
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import (
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"go/ast"
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"go/token"
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"go/types"
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"strconv"
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"strings"
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"github.com/tinygo-org/tinygo/compiler/llvmutil"
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"github.com/tinygo-org/tinygo/loader"
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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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// functionInfo contains some information about a function or method. In
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// particular, it contains information obtained from pragmas.
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//
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// The linkName value contains a valid link name, even if //go:linkname is not
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// present.
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type functionInfo struct {
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module string // go:wasm-module
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importName string // go:linkname, go:export - The name the developer assigns
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linkName string // go:linkname, go:export - The name that we map for the particular module -> importName
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section string // go:section - object file section name
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exported bool // go:export, CGo
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interrupt bool // go:interrupt
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nobounds bool // go:nobounds
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variadic bool // go:variadic (CGo only)
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inline inlineType // go:inline
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}
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type inlineType int
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// How much to inline.
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const (
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// Default behavior. The compiler decides for itself whether any given
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// function will be inlined. Whether any function is inlined depends on the
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// optimization level.
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inlineDefault inlineType = iota
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// Inline hint, just like the C inline keyword (signalled using
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// //go:inline). The compiler will be more likely to inline this function,
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// but it is not a guarantee.
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inlineHint
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// Don't inline, just like the GCC noinline attribute. Signalled using
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// //go:noinline.
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inlineNone
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)
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// Values for the allockind attribute. Source:
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// https://github.com/llvm/llvm-project/blob/release/16.x/llvm/include/llvm/IR/Attributes.h#L49
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const (
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allocKindAlloc = 1 << iota
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allocKindRealloc
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allocKindFree
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allocKindUninitialized
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allocKindZeroed
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allocKindAligned
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)
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// getFunction returns the LLVM function for the given *ssa.Function, creating
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// it if needed. It can later be filled with compilerContext.createFunction().
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func (c *compilerContext) getFunction(fn *ssa.Function) (llvm.Type, llvm.Value) {
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info := c.getFunctionInfo(fn)
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llvmFn := c.mod.NamedFunction(info.linkName)
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if !llvmFn.IsNil() {
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return llvmFn.GlobalValueType(), llvmFn
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}
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var retType llvm.Type
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if fn.Signature.Results() == nil {
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retType = c.ctx.VoidType()
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} else if fn.Signature.Results().Len() == 1 {
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retType = c.getLLVMType(fn.Signature.Results().At(0).Type())
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} else {
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results := make([]llvm.Type, 0, fn.Signature.Results().Len())
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for i := 0; i < fn.Signature.Results().Len(); i++ {
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results = append(results, c.getLLVMType(fn.Signature.Results().At(i).Type()))
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}
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retType = c.ctx.StructType(results, false)
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}
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var paramInfos []paramInfo
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for _, param := range getParams(fn.Signature) {
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paramType := c.getLLVMType(param.Type())
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paramFragmentInfos := c.expandFormalParamType(paramType, param.Name(), param.Type())
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paramInfos = append(paramInfos, paramFragmentInfos...)
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}
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// Add an extra parameter as the function context. This context is used in
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// closures and bound methods, but should be optimized away when not used.
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if !info.exported {
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paramInfos = append(paramInfos, paramInfo{llvmType: c.i8ptrType, name: "context", elemSize: 0})
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}
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var paramTypes []llvm.Type
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for _, info := range paramInfos {
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paramTypes = append(paramTypes, info.llvmType)
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}
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fnType := llvm.FunctionType(retType, paramTypes, info.variadic)
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llvmFn = llvm.AddFunction(c.mod, info.linkName, fnType)
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if strings.HasPrefix(c.Triple, "wasm") {
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// C functions without prototypes like this:
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// void foo();
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// are actually variadic functions. However, it appears that it has been
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// decided in WebAssembly that such prototype-less functions are not
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// allowed in WebAssembly.
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// In C, this can only happen when there are zero parameters, hence this
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// check here. For more information:
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// https://reviews.llvm.org/D48443
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// https://github.com/WebAssembly/tool-conventions/issues/16
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if info.variadic && len(fn.Params) == 0 {
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attr := c.ctx.CreateStringAttribute("no-prototype", "")
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llvmFn.AddFunctionAttr(attr)
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}
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}
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c.addStandardDeclaredAttributes(llvmFn)
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dereferenceableOrNullKind := llvm.AttributeKindID("dereferenceable_or_null")
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for i, info := range paramInfos {
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if info.elemSize != 0 {
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dereferenceableOrNull := c.ctx.CreateEnumAttribute(dereferenceableOrNullKind, info.elemSize)
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llvmFn.AddAttributeAtIndex(i+1, dereferenceableOrNull)
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}
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}
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// Set a number of function or parameter attributes, depending on the
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// function. These functions are runtime functions that are known to have
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// certain attributes that might not be inferred by the compiler.
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switch info.linkName {
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case "abort":
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// On *nix systems, the "abort" functuion in libc is used to handle fatal panics.
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// Mark it as noreturn so LLVM can optimize away code.
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("noreturn"), 0))
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case "runtime.alloc":
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// Tell the optimizer that runtime.alloc is an allocator, meaning that it
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// returns values that are never null and never alias to an existing value.
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for _, attrName := range []string{"noalias", "nonnull"} {
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llvmFn.AddAttributeAtIndex(0, c.ctx.CreateEnumAttribute(llvm.AttributeKindID(attrName), 0))
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}
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if llvmutil.Major() >= 15 { // allockind etc are not available in LLVM 14
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// Add attributes to signal to LLVM that this is an allocator
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// function. This enables a number of optimizations.
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("allockind"), allocKindAlloc|allocKindZeroed))
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llvmFn.AddFunctionAttr(c.ctx.CreateStringAttribute("alloc-family", "runtime.alloc"))
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// Use a special value to indicate the first parameter:
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// > allocsize has two integer arguments, but because they're both 32 bits, we can
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// > pack them into one 64-bit value, at the cost of making said value
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// > nonsensical.
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// >
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// > In order to do this, we need to reserve one value of the second (optional)
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// > allocsize argument to signify "not present."
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("allocsize"), 0x0000_0000_ffff_ffff))
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}
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case "runtime.sliceAppend":
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// Appending a slice will only read the to-be-appended slice, it won't
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// be modified.
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llvmFn.AddAttributeAtIndex(2, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("nocapture"), 0))
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llvmFn.AddAttributeAtIndex(2, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("readonly"), 0))
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case "runtime.sliceCopy":
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// Copying a slice won't capture any of the parameters.
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llvmFn.AddAttributeAtIndex(1, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("writeonly"), 0))
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llvmFn.AddAttributeAtIndex(1, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("nocapture"), 0))
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llvmFn.AddAttributeAtIndex(2, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("readonly"), 0))
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llvmFn.AddAttributeAtIndex(2, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("nocapture"), 0))
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case "runtime.trackPointer":
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// This function is necessary for tracking pointers on the stack in a
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// portable way (see gc_stack_portable.go). Indicate to the optimizer
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// that the only thing we'll do is read the pointer.
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llvmFn.AddAttributeAtIndex(1, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("nocapture"), 0))
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llvmFn.AddAttributeAtIndex(1, c.ctx.CreateEnumAttribute(llvm.AttributeKindID("readonly"), 0))
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case "__mulsi3", "__divmodsi4", "__udivmodsi4":
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if strings.Split(c.Triple, "-")[0] == "avr" {
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// These functions are compiler-rt/libgcc functions that are
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// currently implemented in Go. Assembly versions should appear in
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// LLVM 16 hopefully. Until then, they need to be made available to
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// the linker and the best way to do that is llvm.compiler.used.
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// I considered adding a pragma for this, but the LLVM language
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// reference explicitly says that this feature should not be exposed
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// to source languages:
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// > This is a rare construct that should only be used in rare
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// > circumstances, and should not be exposed to source languages.
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llvmutil.AppendToGlobal(c.mod, "llvm.compiler.used", llvmFn)
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}
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}
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// External/exported functions may not retain pointer values.
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// https://golang.org/cmd/cgo/#hdr-Passing_pointers
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if info.exported {
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if c.archFamily() == "wasm32" {
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// We need to add the wasm-import-module and the wasm-import-name
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// attributes.
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module := info.module
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if module == "" {
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module = "env"
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}
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llvmFn.AddFunctionAttr(c.ctx.CreateStringAttribute("wasm-import-module", module))
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name := info.importName
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if name == "" {
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name = info.linkName
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}
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llvmFn.AddFunctionAttr(c.ctx.CreateStringAttribute("wasm-import-name", name))
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}
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nocaptureKind := llvm.AttributeKindID("nocapture")
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nocapture := c.ctx.CreateEnumAttribute(nocaptureKind, 0)
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for i, typ := range paramTypes {
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if typ.TypeKind() == llvm.PointerTypeKind {
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llvmFn.AddAttributeAtIndex(i+1, nocapture)
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}
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}
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}
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// Synthetic functions are functions that do not appear in the source code,
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// they are artificially constructed. Usually they are wrapper functions
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// that are not referenced anywhere except in a SSA call instruction so
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// should be created right away.
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// The exception is the package initializer, which does appear in the
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// *ssa.Package members and so shouldn't be created here.
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if fn.Synthetic != "" && fn.Synthetic != "package initializer" && fn.Synthetic != "generic function" {
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irbuilder := c.ctx.NewBuilder()
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b := newBuilder(c, irbuilder, fn)
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b.createFunction()
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irbuilder.Dispose()
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llvmFn.SetLinkage(llvm.LinkOnceODRLinkage)
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llvmFn.SetUnnamedAddr(true)
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}
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return fnType, llvmFn
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}
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// getFunctionInfo returns information about a function that is not directly
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// present in *ssa.Function, such as the link name and whether it should be
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// exported.
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func (c *compilerContext) getFunctionInfo(f *ssa.Function) functionInfo {
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info := functionInfo{
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// Pick the default linkName.
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linkName: f.RelString(nil),
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}
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// Check for //go: pragmas, which may change the link name (among others).
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info.parsePragmas(f)
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return info
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}
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// parsePragmas is used by getFunctionInfo to parse function pragmas such as
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// //export or //go:noinline.
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func (info *functionInfo) parsePragmas(f *ssa.Function) {
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if f.Syntax() == nil {
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return
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}
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if decl, ok := f.Syntax().(*ast.FuncDecl); ok && decl.Doc != nil {
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// Our importName for a wasm module (if we are compiling to wasm), or llvm link name
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var importName string
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for _, comment := range decl.Doc.List {
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text := comment.Text
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if strings.HasPrefix(text, "//export ") {
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// Rewrite '//export' to '//go:export' for compatibility with
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// gc.
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text = "//go:" + text[2:]
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}
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if !strings.HasPrefix(text, "//go:") {
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continue
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}
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parts := strings.Fields(text)
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switch parts[0] {
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case "//go:export":
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if len(parts) != 2 {
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continue
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}
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importName = parts[1]
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info.exported = true
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case "//go:interrupt":
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if hasUnsafeImport(f.Pkg.Pkg) {
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info.interrupt = true
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}
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case "//go:wasm-module":
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// Alternative comment for setting the import module.
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if len(parts) != 2 {
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continue
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}
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info.module = parts[1]
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case "//go:inline":
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info.inline = inlineHint
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case "//go:noinline":
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info.inline = inlineNone
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case "//go:linkname":
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if len(parts) != 3 || parts[1] != f.Name() {
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continue
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}
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// Only enable go:linkname when the package imports "unsafe".
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// This is a slightly looser requirement than what gc uses: gc
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// requires the file to import "unsafe", not the package as a
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// whole.
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if hasUnsafeImport(f.Pkg.Pkg) {
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info.linkName = parts[2]
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}
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case "//go:section":
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// Only enable go:section when the package imports "unsafe".
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// go:section also implies go:noinline since inlining could
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// move the code to a different section than that requested.
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if len(parts) == 2 && hasUnsafeImport(f.Pkg.Pkg) {
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info.section = parts[1]
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info.inline = inlineNone
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}
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case "//go:nobounds":
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// Skip bounds checking in this function. Useful for some
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// runtime functions.
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// This is somewhat dangerous and thus only imported in packages
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// that import unsafe.
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if hasUnsafeImport(f.Pkg.Pkg) {
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info.nobounds = true
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}
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case "//go:variadic":
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// The //go:variadic pragma is emitted by the CGo preprocessing
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// pass for C variadic functions. This includes both explicit
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// (with ...) and implicit (no parameters in signature)
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// functions.
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if strings.HasPrefix(f.Name(), "C.") {
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// This prefix cannot naturally be created, it must have
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// been created as a result of CGo preprocessing.
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info.variadic = true
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}
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}
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}
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// Set the importName for our exported function if we have one
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if importName != "" {
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if info.module == "" {
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info.linkName = importName
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} else {
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// WebAssembly import
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info.importName = importName
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}
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}
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}
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}
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// getParams returns the function parameters, including the receiver at the
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// start. This is an alternative to the Params member of *ssa.Function, which is
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// not yet populated when the package has not yet been built.
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func getParams(sig *types.Signature) []*types.Var {
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params := []*types.Var{}
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if sig.Recv() != nil {
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params = append(params, sig.Recv())
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}
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for i := 0; i < sig.Params().Len(); i++ {
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params = append(params, sig.Params().At(i))
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}
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return params
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}
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// addStandardDeclaredAttributes adds attributes that are set for any function,
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// whether declared or defined.
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func (c *compilerContext) addStandardDeclaredAttributes(llvmFn llvm.Value) {
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if c.SizeLevel >= 1 {
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// Set the "optsize" attribute to make slightly smaller binaries at the
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// cost of minimal performance loss (-Os in Clang).
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kind := llvm.AttributeKindID("optsize")
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attr := c.ctx.CreateEnumAttribute(kind, 0)
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llvmFn.AddFunctionAttr(attr)
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}
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if c.SizeLevel >= 2 {
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// Set the "minsize" attribute to reduce code size even further,
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// regardless of performance loss (-Oz in Clang).
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kind := llvm.AttributeKindID("minsize")
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attr := c.ctx.CreateEnumAttribute(kind, 0)
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llvmFn.AddFunctionAttr(attr)
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}
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if c.CPU != "" {
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llvmFn.AddFunctionAttr(c.ctx.CreateStringAttribute("target-cpu", c.CPU))
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}
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if c.Features != "" {
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llvmFn.AddFunctionAttr(c.ctx.CreateStringAttribute("target-features", c.Features))
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}
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}
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// addStandardDefinedAttributes adds the set of attributes that are added to
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// every function defined by TinyGo (even thunks/wrappers), possibly depending
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// on the architecture. It does not set attributes only set for declared
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// functions, use addStandardDeclaredAttributes for this.
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func (c *compilerContext) addStandardDefinedAttributes(llvmFn llvm.Value) {
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// TinyGo does not currently raise exceptions, so set the 'nounwind' flag.
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// This behavior matches Clang when compiling C source files.
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// It reduces binary size on Linux a little bit on non-x86_64 targets by
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// eliminating exception tables for these functions.
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("nounwind"), 0))
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if strings.Split(c.Triple, "-")[0] == "x86_64" {
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// Required by the ABI.
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if llvmutil.Major() < 15 {
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// Needed for LLVM 14 support.
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("uwtable"), 0))
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} else {
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// The uwtable has two possible values: sync (1) or async (2). We
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// use sync because we currently don't use async unwind tables.
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// For details, see: https://llvm.org/docs/LangRef.html#function-attributes
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llvmFn.AddFunctionAttr(c.ctx.CreateEnumAttribute(llvm.AttributeKindID("uwtable"), 1))
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}
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}
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}
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// addStandardAttribute adds all attributes added to defined functions.
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func (c *compilerContext) addStandardAttributes(llvmFn llvm.Value) {
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c.addStandardDeclaredAttributes(llvmFn)
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c.addStandardDefinedAttributes(llvmFn)
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}
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// globalInfo contains some information about a specific global. By default,
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// linkName is equal to .RelString(nil) on a global and extern is false, but for
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// some symbols this is different (due to //go:extern for example).
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type globalInfo struct {
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linkName string // go:extern
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extern bool // go:extern
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align int // go:align
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section string // go:section
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}
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// loadASTComments loads comments on globals from the AST, for use later in the
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// program. In particular, they are required for //go:extern pragmas on globals.
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func (c *compilerContext) loadASTComments(pkg *loader.Package) {
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for _, file := range pkg.Files {
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for _, decl := range file.Decls {
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switch decl := decl.(type) {
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case *ast.GenDecl:
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switch decl.Tok {
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case token.VAR:
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if len(decl.Specs) != 1 {
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continue
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}
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for _, spec := range decl.Specs {
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switch spec := spec.(type) {
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case *ast.ValueSpec: // decl.Tok == token.VAR
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for _, name := range spec.Names {
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id := pkg.Pkg.Path() + "." + name.Name
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c.astComments[id] = decl.Doc
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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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}
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}
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// getGlobal returns a LLVM IR global value for a Go SSA global. It is added to
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// the LLVM IR if it has not been added already.
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func (c *compilerContext) getGlobal(g *ssa.Global) llvm.Value {
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info := c.getGlobalInfo(g)
|
|
llvmGlobal := c.mod.NamedGlobal(info.linkName)
|
|
if llvmGlobal.IsNil() {
|
|
typ := g.Type().(*types.Pointer).Elem()
|
|
llvmType := c.getLLVMType(typ)
|
|
llvmGlobal = llvm.AddGlobal(c.mod, llvmType, info.linkName)
|
|
|
|
// Set alignment from the //go:align comment.
|
|
alignment := c.targetData.ABITypeAlignment(llvmType)
|
|
if info.align > alignment {
|
|
alignment = info.align
|
|
}
|
|
if alignment <= 0 || alignment&(alignment-1) != 0 {
|
|
// Check for power-of-two (or 0).
|
|
// See: https://stackoverflow.com/a/108360
|
|
c.addError(g.Pos(), "global variable alignment must be a positive power of two")
|
|
} else {
|
|
// Set the alignment only when it is a power of two.
|
|
llvmGlobal.SetAlignment(alignment)
|
|
}
|
|
|
|
if c.Debug && !info.extern {
|
|
// Add debug info.
|
|
pos := c.program.Fset.Position(g.Pos())
|
|
diglobal := c.dibuilder.CreateGlobalVariableExpression(c.difiles[pos.Filename], llvm.DIGlobalVariableExpression{
|
|
Name: g.RelString(nil),
|
|
LinkageName: info.linkName,
|
|
File: c.getDIFile(pos.Filename),
|
|
Line: pos.Line,
|
|
Type: c.getDIType(typ),
|
|
LocalToUnit: false,
|
|
Expr: c.dibuilder.CreateExpression(nil),
|
|
AlignInBits: uint32(alignment) * 8,
|
|
})
|
|
llvmGlobal.AddMetadata(0, diglobal)
|
|
}
|
|
}
|
|
return llvmGlobal
|
|
}
|
|
|
|
// getGlobalInfo returns some information about a specific global.
|
|
func (c *compilerContext) getGlobalInfo(g *ssa.Global) globalInfo {
|
|
info := globalInfo{
|
|
// Pick the default linkName.
|
|
linkName: g.RelString(nil),
|
|
}
|
|
// Check for //go: pragmas, which may change the link name (among others).
|
|
doc := c.astComments[info.linkName]
|
|
if doc != nil {
|
|
info.parsePragmas(doc)
|
|
}
|
|
return info
|
|
}
|
|
|
|
// Parse //go: pragma comments from the source. In particular, it parses the
|
|
// //go:extern pragma on globals.
|
|
func (info *globalInfo) parsePragmas(doc *ast.CommentGroup) {
|
|
for _, comment := range doc.List {
|
|
if !strings.HasPrefix(comment.Text, "//go:") {
|
|
continue
|
|
}
|
|
parts := strings.Fields(comment.Text)
|
|
switch parts[0] {
|
|
case "//go:extern":
|
|
info.extern = true
|
|
if len(parts) == 2 {
|
|
info.linkName = parts[1]
|
|
}
|
|
case "//go:align":
|
|
align, err := strconv.Atoi(parts[1])
|
|
if err == nil {
|
|
info.align = align
|
|
}
|
|
case "//go:section":
|
|
if len(parts) == 2 {
|
|
info.section = parts[1]
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
// Get all methods of a type.
|
|
func getAllMethods(prog *ssa.Program, typ types.Type) []*types.Selection {
|
|
ms := prog.MethodSets.MethodSet(typ)
|
|
methods := make([]*types.Selection, ms.Len())
|
|
for i := 0; i < ms.Len(); i++ {
|
|
methods[i] = ms.At(i)
|
|
}
|
|
return methods
|
|
}
|
|
|
|
// Return true if this package imports "unsafe", false otherwise.
|
|
func hasUnsafeImport(pkg *types.Package) bool {
|
|
for _, imp := range pkg.Imports() {
|
|
if imp == types.Unsafe {
|
|
return true
|
|
}
|
|
}
|
|
return false
|
|
}
|
|
|