tinygo/compiler/calls.go

package compiler

import (
	"fmt"
	"golang.org/x/tools/go/ssa"
	"tinygo.org/x/go-llvm"
)

// For a description of the calling convention in prose, see:
// https://tinygo.org/compiler-internals/calling-convention/

// The maximum number of arguments that can be expanded from a single struct. If
// a struct contains more fields, it is passed as a struct without expanding.
const MaxFieldsPerParam = 3

// Shortcut: create a call to runtime.<fnName> with the given arguments.
func (c *Compiler) createRuntimeCall(fnName string, args []llvm.Value, name string) llvm.Value {
	runtimePkg := c.ir.Program.ImportedPackage("runtime")
	member := runtimePkg.Members[fnName]
	if member == nil {
		panic("trying to call runtime." + fnName)
	}
	fn := c.ir.GetFunction(member.(*ssa.Function))
	if fn.LLVMFn.IsNil() {
		panic(fmt.Errorf("function %s does not appear in LLVM IR", fnName))
	}
	if !fn.IsExported() {
		args = append(args, llvm.Undef(c.i8ptrType))            // unused context parameter
		args = append(args, llvm.ConstPointerNull(c.i8ptrType)) // coroutine handle
	}
	return c.createCall(fn.LLVMFn, args, name)
}

// Create a call to the given function with the arguments possibly expanded.
func (c *Compiler) createCall(fn llvm.Value, args []llvm.Value, name string) llvm.Value {
	expanded := make([]llvm.Value, 0, len(args))
	for _, arg := range args {
		fragments := c.expandFormalParam(arg)
		expanded = append(expanded, fragments...)
	}
	return c.builder.CreateCall(fn, expanded, name)
}

// Expand an argument type to a list that can be used in a function call
// parameter list.
func (c *Compiler) expandFormalParamType(t llvm.Type) []llvm.Type {
	switch t.TypeKind() {
	case llvm.StructTypeKind:
		fields := c.flattenAggregateType(t)
		if len(fields) <= MaxFieldsPerParam {
			return fields
		} else {
			// failed to lower
			return []llvm.Type{t}
		}
	default:
		// TODO: split small arrays
		return []llvm.Type{t}
	}
}

// Expand an argument type to a list of offsets from the start of the object.
// Used together with expandFormalParam to get the offset of each value from the
// start of the non-expanded value.
func (c *Compiler) expandFormalParamOffsets(t llvm.Type) []uint64 {
	switch t.TypeKind() {
	case llvm.StructTypeKind:
		fields := c.flattenAggregateTypeOffsets(t)
		if len(fields) <= MaxFieldsPerParam {
			return fields
		} else {
			// failed to lower
			return []uint64{0}
		}
	default:
		// TODO: split small arrays
		return []uint64{0}
	}
}

// Equivalent of expandFormalParamType for parameter values.
func (c *Compiler) expandFormalParam(v llvm.Value) []llvm.Value {
	switch v.Type().TypeKind() {
	case llvm.StructTypeKind:
		fieldTypes := c.flattenAggregateType(v.Type())
		if len(fieldTypes) <= MaxFieldsPerParam {
			fields := c.flattenAggregate(v)
			if len(fields) != len(fieldTypes) {
				panic("type and value param lowering don't match")
			}
			return fields
		} else {
			// failed to lower
			return []llvm.Value{v}
		}
	default:
		// TODO: split small arrays
		return []llvm.Value{v}
	}
}

// Try to flatten a struct type to a list of types. Returns a 1-element slice
// with the passed in type if this is not possible.
func (c *Compiler) flattenAggregateType(t llvm.Type) []llvm.Type {
	switch t.TypeKind() {
	case llvm.StructTypeKind:
		fields := make([]llvm.Type, 0, t.StructElementTypesCount())
		for _, subfield := range t.StructElementTypes() {
			subfields := c.flattenAggregateType(subfield)
			fields = append(fields, subfields...)
		}
		return fields
	default:
		return []llvm.Type{t}
	}
}

// Return the offsets from the start of the object if this object type were
// flattened like in flattenAggregate. Used together with flattenAggregate to
// know the start indices of each value in the non-flattened object.
func (c *Compiler) flattenAggregateTypeOffsets(t llvm.Type) []uint64 {
	switch t.TypeKind() {
	case llvm.StructTypeKind:
		fields := make([]uint64, 0, t.StructElementTypesCount())
		for fieldIndex, field := range t.StructElementTypes() {
			suboffsets := c.flattenAggregateTypeOffsets(field)
			offset := c.targetData.ElementOffset(t, fieldIndex)
			for i := range suboffsets {
				suboffsets[i] += offset
			}
			fields = append(fields, suboffsets...)
		}
		return fields
	default:
		return []uint64{0}
	}
}

// Break down a struct into its elementary types for argument passing. The value
// equivalent of flattenAggregateType
func (c *Compiler) flattenAggregate(v llvm.Value) []llvm.Value {
	switch v.Type().TypeKind() {
	case llvm.StructTypeKind:
		fields := make([]llvm.Value, 0, v.Type().StructElementTypesCount())
		for i := range v.Type().StructElementTypes() {
			subfield := c.builder.CreateExtractValue(v, i, "")
			subfields := c.flattenAggregate(subfield)
			fields = append(fields, subfields...)
		}
		return fields
	default:
		return []llvm.Value{v}
	}
}

// Collapse a list of fields into its original value.
func (c *Compiler) collapseFormalParam(t llvm.Type, fields []llvm.Value) llvm.Value {
	param, remaining := c.collapseFormalParamInternal(t, fields)
	if len(remaining) != 0 {
		panic("failed to expand back all fields")
	}
	return param
}

// Returns (value, remainingFields). Used by collapseFormalParam.
func (c *Compiler) collapseFormalParamInternal(t llvm.Type, fields []llvm.Value) (llvm.Value, []llvm.Value) {
	switch t.TypeKind() {
	case llvm.StructTypeKind:
		if len(c.flattenAggregateType(t)) <= MaxFieldsPerParam {
			value := llvm.ConstNull(t)
			for i, subtyp := range t.StructElementTypes() {
				structField, remaining := c.collapseFormalParamInternal(subtyp, fields)
				fields = remaining
				value = c.builder.CreateInsertValue(value, structField, i, "")
			}
			return value, fields
		} else {
			// this struct was not flattened
			return fields[0], fields[1:]
		}
	default:
		return fields[0], fields[1:]
	}
}
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`package compiler`

			`import (`
Improved blocking (#513) core: major improvements to blocking, including support for buffered channels. 5 years ago			`"fmt"`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`"golang.org/x/tools/go/ssa"`
all: go fmt The import path changes changed the order of imports, but no `go fmt` was run before the commit. Oops... 6 years ago			`"tinygo.org/x/go-llvm"`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`)`

docs: change links in README and remove old ReadTheDocs pages to point to TinyGo.org site Signed-off-by: Ron Evans <ron@hybridgroup.com> 6 years ago			`// For a description of the calling convention in prose, see:`
			`// https://tinygo.org/compiler-internals/calling-convention/`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago
compiler: small cleanup in call handling code 6 years ago			`// The maximum number of arguments that can be expanded from a single struct. If`
compiler: implement deferring of immediately-applied closures This is a common operation: freevar := ... defer func() { println("I am deferred:", freevar) }() The function is thus an immediately applied closure. Only this form is currently supported, support for regular (fat) function pointers should be trivial to add but is not currently implemented as it wasn't necessary to get fmt to compile. 6 years ago			`// a struct contains more fields, it is passed as a struct without expanding.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`const MaxFieldsPerParam = 3`

compiler: small cleanup in call handling code 6 years ago			`// Shortcut: create a call to runtime.<fnName> with the given arguments.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) createRuntimeCall(fnName string, args []llvm.Value, name string) llvm.Value {`
			`runtimePkg := c.ir.Program.ImportedPackage("runtime")`
			`member := runtimePkg.Members[fnName]`
			`if member == nil {`
			`panic("trying to call runtime." + fnName)`
			`}`
			`fn := c.ir.GetFunction(member.(*ssa.Function))`
Improved blocking (#513) core: major improvements to blocking, including support for buffered channels. 5 years ago			`if fn.LLVMFn.IsNil() {`
			`panic(fmt.Errorf("function %s does not appear in LLVM IR", fnName))`
			`}`
compiler: always use fat function pointers with context This reduces complexity in the compiler without affecting binary sizes too much. Cortex-M0: no changes Linux x64: no changes WebAssembly: some testcases (calls, coroutines, map) are slightly bigger 6 years ago			`if !fn.IsExported() {`
all: rewrite goroutine lowering Before this commit, goroutine support was spread through the compiler. This commit changes this support, so that the compiler itself only generates simple intrinsics and leaves the real support to a compiler pass that runs as one of the TinyGo-specific optimization passes. The biggest change, that was done together with the rewrite, was support for goroutines in WebAssembly for JavaScript. The challenge in JavaScript is that in general no blocking operations are allowed, which means that programs that call time.Sleep() but do not start goroutines also have to be scheduled by the scheduler. 6 years ago			`args = append(args, llvm.Undef(c.i8ptrType)) // unused context parameter`
			`args = append(args, llvm.ConstPointerNull(c.i8ptrType)) // coroutine handle`
compiler: always use fat function pointers with context This reduces complexity in the compiler without affecting binary sizes too much. Cortex-M0: no changes Linux x64: no changes WebAssembly: some testcases (calls, coroutines, map) are slightly bigger 6 years ago			`}`
compiler: small cleanup in call handling code 6 years ago			`return c.createCall(fn.LLVMFn, args, name)`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`}`

compiler: small cleanup in call handling code 6 years ago			`// Create a call to the given function with the arguments possibly expanded.`
			`func (c *Compiler) createCall(fn llvm.Value, args []llvm.Value, name string) llvm.Value {`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`expanded := make([]llvm.Value, 0, len(args))`
			`for _, arg := range args {`
			`fragments := c.expandFormalParam(arg)`
			`expanded = append(expanded, fragments...)`
			`}`
			`return c.builder.CreateCall(fn, expanded, name)`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Expand an argument type to a list that can be used in a function call`
Trivial typo fix 5 years ago			`// parameter list.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) expandFormalParamType(t llvm.Type) []llvm.Type {`
			`switch t.TypeKind() {`
			`case llvm.StructTypeKind:`
			`fields := c.flattenAggregateType(t)`
			`if len(fields) <= MaxFieldsPerParam {`
			`return fields`
			`} else {`
			`// failed to lower`
			`return []llvm.Type{t}`
			`}`
			`default:`
			`// TODO: split small arrays`
			`return []llvm.Type{t}`
			`}`
			`}`

compiler: add debug info for function arguments This commit adds debug info to function arguments, so that in many cases you can see them when compiling with less optimizations enabled. Unfortunately, due to the way Go SSA works, it is hard to preserve them in many cases. Local variables are not yet saved. Also, change the language type to C, to make sure lldb shows function arguments. The previous language was Modula 3, apparently due to a off-by-one error somewhere. 6 years ago			`// Expand an argument type to a list of offsets from the start of the object.`
			`// Used together with expandFormalParam to get the offset of each value from the`
			`// start of the non-expanded value.`
			`func (c *Compiler) expandFormalParamOffsets(t llvm.Type) []uint64 {`
			`switch t.TypeKind() {`
			`case llvm.StructTypeKind:`
			`fields := c.flattenAggregateTypeOffsets(t)`
			`if len(fields) <= MaxFieldsPerParam {`
			`return fields`
			`} else {`
			`// failed to lower`
			`return []uint64{0}`
			`}`
			`default:`
			`// TODO: split small arrays`
			`return []uint64{0}`
			`}`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Equivalent of expandFormalParamType for parameter values.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) expandFormalParam(v llvm.Value) []llvm.Value {`
			`switch v.Type().TypeKind() {`
			`case llvm.StructTypeKind:`
			`fieldTypes := c.flattenAggregateType(v.Type())`
			`if len(fieldTypes) <= MaxFieldsPerParam {`
			`fields := c.flattenAggregate(v)`
			`if len(fields) != len(fieldTypes) {`
			`panic("type and value param lowering don't match")`
			`}`
			`return fields`
			`} else {`
			`// failed to lower`
			`return []llvm.Value{v}`
			`}`
			`default:`
			`// TODO: split small arrays`
			`return []llvm.Value{v}`
			`}`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Try to flatten a struct type to a list of types. Returns a 1-element slice`
			`// with the passed in type if this is not possible.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) flattenAggregateType(t llvm.Type) []llvm.Type {`
			`switch t.TypeKind() {`
			`case llvm.StructTypeKind:`
compiler: fix expanding zero-length structs 6 years ago			`fields := make([]llvm.Type, 0, t.StructElementTypesCount())`
			`for _, subfield := range t.StructElementTypes() {`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`subfields := c.flattenAggregateType(subfield)`
			`fields = append(fields, subfields...)`
			`}`
			`return fields`
			`default:`
			`return []llvm.Type{t}`
			`}`
			`}`

compiler: add debug info for function arguments This commit adds debug info to function arguments, so that in many cases you can see them when compiling with less optimizations enabled. Unfortunately, due to the way Go SSA works, it is hard to preserve them in many cases. Local variables are not yet saved. Also, change the language type to C, to make sure lldb shows function arguments. The previous language was Modula 3, apparently due to a off-by-one error somewhere. 6 years ago			`// Return the offsets from the start of the object if this object type were`
			`// flattened like in flattenAggregate. Used together with flattenAggregate to`
			`// know the start indices of each value in the non-flattened object.`
			`func (c *Compiler) flattenAggregateTypeOffsets(t llvm.Type) []uint64 {`
			`switch t.TypeKind() {`
			`case llvm.StructTypeKind:`
			`fields := make([]uint64, 0, t.StructElementTypesCount())`
			`for fieldIndex, field := range t.StructElementTypes() {`
			`suboffsets := c.flattenAggregateTypeOffsets(field)`
			`offset := c.targetData.ElementOffset(t, fieldIndex)`
			`for i := range suboffsets {`
			`suboffsets[i] += offset`
			`}`
			`fields = append(fields, suboffsets...)`
			`}`
			`return fields`
			`default:`
			`return []uint64{0}`
			`}`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Break down a struct into its elementary types for argument passing. The value`
			`// equivalent of flattenAggregateType`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) flattenAggregate(v llvm.Value) []llvm.Value {`
			`switch v.Type().TypeKind() {`
			`case llvm.StructTypeKind:`
compiler: fix expanding zero-length structs 6 years ago			`fields := make([]llvm.Value, 0, v.Type().StructElementTypesCount())`
			`for i := range v.Type().StructElementTypes() {`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`subfield := c.builder.CreateExtractValue(v, i, "")`
			`subfields := c.flattenAggregate(subfield)`
			`fields = append(fields, subfields...)`
			`}`
			`return fields`
			`default:`
			`return []llvm.Value{v}`
			`}`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Collapse a list of fields into its original value.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) collapseFormalParam(t llvm.Type, fields []llvm.Value) llvm.Value {`
			`param, remaining := c.collapseFormalParamInternal(t, fields)`
			`if len(remaining) != 0 {`
			`panic("failed to expand back all fields")`
			`}`
			`return param`
			`}`

compiler: small cleanup in call handling code 6 years ago			`// Returns (value, remainingFields). Used by collapseFormalParam.`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`func (c *Compiler) collapseFormalParamInternal(t llvm.Type, fields []llvm.Value) (llvm.Value, []llvm.Value) {`
			`switch t.TypeKind() {`
			`case llvm.StructTypeKind:`
			`if len(c.flattenAggregateType(t)) <= MaxFieldsPerParam {`
compiler: rename getZeroValue to llvm.ConstNull It does the same thing but should be more complete, and it probably is faster as well (just one CGo call instead of several). 5 years ago			`value := llvm.ConstNull(t)`
compiler: fix expanding zero-length structs 6 years ago			`for i, subtyp := range t.StructElementTypes() {`
compiler: expand small structs Use fields of small structs (3 or less fields when flattened recursively) directly as parameter values. Advantages: * Code size is slightly reduced, both on unix and nrf. * AVR can finally deal with struct parameters - at least the small ones. examples/test now compiles. A real fix for struct parameters should go into upstream LLVM, but this is a nice win. fixes #20 6 years ago			`structField, remaining := c.collapseFormalParamInternal(subtyp, fields)`
			`fields = remaining`
			`value = c.builder.CreateInsertValue(value, structField, i, "")`
			`}`
			`return value, fields`
			`} else {`
			`// this struct was not flattened`
			`return fields[0], fields[1:]`
			`}`
			`default:`
			`return fields[0], fields[1:]`
			`}`
			`}`