// genInvoke generates constraints for a dynamic method invocation.
func (a *analysis) genInvoke(caller *cgnode, site *callsite, call *ssa.CallCommon, result nodeid) {
if call.Value.Type() == a.reflectType {
a.genInvokeReflectType(caller, site, call, result)
return
}
sig := call.Signature()
// Allocate a contiguous targets/params/results block for this call.
block := a.nextNode()
// pts(targets) will be the set of possible call targets
site.targets = a.addOneNode(sig, "invoke.targets", nil)
p := a.addNodes(sig.Params(), "invoke.params")
r := a.addNodes(sig.Results(), "invoke.results")
// Copy the actual parameters into the call's params block.
for i, n := 0, sig.Params().Len(); i < n; i++ {
sz := a.sizeof(sig.Params().At(i).Type())
a.copy(p, a.valueNode(call.Args[i]), sz)
p += nodeid(sz)
}
// Copy the call's results block to the actual results.
if result != 0 {
a.copy(result, r, a.sizeof(sig.Results()))
}
// We add a dynamic invoke constraint that will connect the
// caller's and the callee's P/R blocks for each discovered
// call target.
a.addConstraint(&invokeConstraint{call.Method, a.valueNode(call.Value), block})
}
// genStaticCall generates constraints for a statically dispatched function call.
func (a *analysis) genStaticCall(caller *cgnode, site *callsite, call *ssa.CallCommon, result nodeid) {
fn := call.StaticCallee()
// Special cases for inlined intrinsics.
switch fn {
case a.runtimeSetFinalizer:
// Inline SetFinalizer so the call appears direct.
site.targets = a.addOneNode(tInvalid, "SetFinalizer.targets", nil)
a.addConstraint(&runtimeSetFinalizerConstraint{
targets: site.targets,
x: a.valueNode(call.Args[0]),
f: a.valueNode(call.Args[1]),
})
return
case a.reflectValueCall:
// Inline (reflect.Value).Call so the call appears direct.
dotdotdot := false
ret := reflectCallImpl(a, caller, site, a.valueNode(call.Args[0]), a.valueNode(call.Args[1]), dotdotdot)
if result != 0 {
a.addressOf(fn.Signature.Results().At(0).Type(), result, ret)
}
return
}
// Ascertain the context (contour/cgnode) for a particular call.
var obj nodeid
if a.shouldUseContext(fn) {
obj = a.makeFunctionObject(fn, site) // new contour
} else {
obj = a.objectNode(nil, fn) // shared contour
}
a.callEdge(caller, site, obj)
sig := call.Signature()
// Copy receiver, if any.
params := a.funcParams(obj)
args := call.Args
if sig.Recv() != nil {
sz := a.sizeof(sig.Recv().Type())
a.copy(params, a.valueNode(args[0]), sz)
params += nodeid(sz)
args = args[1:]
}
// Copy actual parameters into formal params block.
// Must loop, since the actuals aren't contiguous.
for i, arg := range args {
sz := a.sizeof(sig.Params().At(i).Type())
a.copy(params, a.valueNode(arg), sz)
params += nodeid(sz)
}
// Copy formal results block to actual result.
if result != 0 {
a.copy(result, a.funcResults(obj), a.sizeof(sig.Results()))
}
}
// genDynamicCall generates constraints for a dynamic function call.
func (a *analysis) genDynamicCall(caller *cgnode, site *callsite, call *ssa.CallCommon, result nodeid) {
// pts(targets) will be the set of possible call targets.
site.targets = a.valueNode(call.Value)
// We add dynamic closure rules that store the arguments into
// the P-block and load the results from the R-block of each
// function discovered in pts(targets).
sig := call.Signature()
var offset uint32 = 1 // P/R block starts at offset 1
for i, arg := range call.Args {
sz := a.sizeof(sig.Params().At(i).Type())
a.genStore(caller, call.Value, a.valueNode(arg), offset, sz)
offset += sz
}
if result != 0 {
a.genLoad(caller, result, call.Value, offset, a.sizeof(sig.Results()))
}
}