reflect.abiStep.kind (field)
29 uses
reflect (current package)
abi.go#L41: kind abiStepKind
abi.go#L94: println("part", i, p.kind, p.offset, p.size, p.stkOff, p.ireg, p.freg)
abi.go#L277: kind: kind,
abi.go#L302: kind: abiStepFloatReg,
abi.go#L319: kind: abiStepStack,
abi.go#L427: if st.kind == abiStepPointer {
abi.go#L458: if st.kind == abiStepPointer {
value.go#L496: switch st := abid.call.steps[0]; st.kind {
value.go#L522: switch st.kind {
value.go#L537: if st.kind == abiStepPointer {
value.go#L545: if st.kind == abiStepPointer {
value.go#L613: if st := steps[0]; st.kind == abiStepStack {
value.go#L630: if steps[0].kind != abiStepPointer {
value.go#L631: print("kind=", steps[0].kind, ", type=", stringFor(tv), "\n")
value.go#L649: switch st.kind {
value.go#L716: if st := steps[0]; st.kind == abiStepStack {
value.go#L737: switch st.kind {
value.go#L756: if steps[0].kind != abiStepPointer {
value.go#L757: print("kind=", steps[0].kind, ", type=", stringFor(typ), "\n")
value.go#L806: switch st.kind {
value.go#L971: switch st := methodABI.call.steps[0]; st.kind {
value.go#L1011: if vStep := valueSteps[0]; vStep.kind == abiStepStack {
value.go#L1014: if mStep.kind == abiStepStack {
value.go#L1026: switch mStep.kind {
value.go#L1042: if mStep := methodSteps[0]; mStep.kind == abiStepStack {
value.go#L1045: switch vStep.kind {
value.go#L1068: if mStep.kind != vStep.kind {
value.go#L1071: switch vStep.kind {