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interpreter.go
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interpreter.go
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/*
Copyright 2016 Google Inc. All rights reserved.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package jsonnet
import (
"bytes"
"fmt"
"math"
"reflect"
"sort"
"github.com/google/go-jsonnet/ast"
)
// TODO(sbarzowski) use it as a pointer in most places b/c it can sometimes be shared
// for example it can be shared between array elements and function arguments
type environment struct {
selfBinding selfBinding
// Bindings introduced in this frame. The way previous bindings are treated
// depends on the type of a frame.
// If isCall == true then previous bindings are ignored (it's a clean
// environment with just the variables we have here).
// If isCall == false then if this frame doesn't contain a binding
// previous bindings will be used.
upValues bindingFrame
}
func makeEnvironment(upValues bindingFrame, sb selfBinding) environment {
return environment{
upValues: upValues,
selfBinding: sb,
}
}
func (i *interpreter) getCurrentStackTrace(additional TraceElement) []TraceFrame {
var result []TraceFrame
for _, f := range i.stack.stack {
if f.isCall {
result = append(result, traceElementToTraceFrame(f.trace))
}
}
if additional.loc != nil {
result = append(result, traceElementToTraceFrame(additional))
}
return result
}
type callFrame struct {
// True if it switches to a clean environment (function call or array element)
// False otherwise, e.g. for local
// This makes callFrame a misnomer as it is technically not always a call...
isCall bool
// Tracing information about the place where it was called from.
trace TraceElement
// Whether this frame can be removed from the stack when it doesn't affect
// the evaluation result, but in case of an error, it won't appear on the
// stack trace.
// It's used for tail call optimization.
trimmable bool
env environment
}
func dumpCallFrame(c *callFrame) string {
var loc ast.LocationRange
if c.trace.loc == nil {
loc = ast.MakeLocationRangeMessage("?")
} else {
loc = *c.trace.loc
}
return fmt.Sprintf("<callFrame isCall = %t location = %v trimmable = %t>",
c.isCall,
loc,
c.trimmable,
)
}
type callStack struct {
calls int
limit int
stack []*callFrame
}
func dumpCallStack(c *callStack) string {
var buf bytes.Buffer
fmt.Fprintf(&buf, "<callStack calls = %d limit = %d stack:\n", c.calls, c.limit)
for _, callFrame := range c.stack {
fmt.Fprintf(&buf, " %v\n", dumpCallFrame(callFrame))
}
buf.WriteString("\n>")
return buf.String()
}
func (s *callStack) top() *callFrame {
r := s.stack[len(s.stack)-1]
return r
}
// It might've been popped already by tail call optimization.
// We check if it was trimmed by comparing the current stack size to the position
// of the frame we want to pop.
func (s *callStack) popIfExists(whichFrame int) {
if len(s.stack) == whichFrame {
if s.top().isCall {
s.calls--
}
s.stack = s.stack[:len(s.stack)-1]
}
}
/** If there is a trimmable frame followed by some locals, pop them all. */
func (s *callStack) tailCallTrimStack() {
for i := len(s.stack) - 1; i >= 0; i-- {
if s.stack[i].isCall {
if !s.stack[i].trimmable {
return
}
// Remove this stack frame and everything above it
s.stack = s.stack[:i]
s.calls--
return
}
}
}
type tailCallStatus int
const (
nonTailCall tailCallStatus = iota
tailCall
)
func (s *callStack) newCall(trace TraceElement, env environment, trimmable bool) {
s.stack = append(s.stack, &callFrame{
isCall: true,
trace: trace,
env: env,
trimmable: trimmable,
})
s.calls++
}
func (s *callStack) newLocal(vars bindingFrame) {
s.stack = append(s.stack, &callFrame{
env: makeEnvironment(vars, selfBinding{}),
})
}
// getSelfBinding resolves the self construct
func (s *callStack) getSelfBinding() selfBinding {
for i := len(s.stack) - 1; i >= 0; i-- {
if s.stack[i].isCall {
return s.stack[i].env.selfBinding
}
}
panic(fmt.Sprintf("malformed stack %v", dumpCallStack(s)))
}
// lookUpVar finds for the closest variable in scope that matches the given name.
func (s *callStack) lookUpVar(id ast.Identifier) *cachedThunk {
for i := len(s.stack) - 1; i >= 0; i-- {
bind, present := s.stack[i].env.upValues[id]
if present {
return bind
}
if s.stack[i].isCall {
// Nothing beyond the captured environment of the thunk / closure.
break
}
}
return nil
}
func (s *callStack) lookUpVarOrPanic(id ast.Identifier) *cachedThunk {
th := s.lookUpVar(id)
if th == nil {
panic(fmt.Sprintf("RUNTIME: Unknown variable: %v (we should have caught this statically)", id))
}
return th
}
func (s *callStack) getCurrentEnv(ast ast.Node) environment {
return makeEnvironment(
s.capture(ast.FreeVariables()),
s.getSelfBinding(),
)
}
// Build a binding frame containing specified variables.
func (s *callStack) capture(freeVars ast.Identifiers) bindingFrame {
env := make(bindingFrame)
for _, fv := range freeVars {
env[fv] = s.lookUpVarOrPanic(fv)
}
return env
}
func makeCallStack(limit int) callStack {
return callStack{
calls: 0,
limit: limit,
}
}
// Keeps current execution context and evaluates things
type interpreter struct {
// Current stack. It is used for:
// 1) Keeping environment (object we're in, variables)
// 2) Diagnostic information in case of failure
stack callStack
// External variables
extVars map[string]*cachedThunk
// Native functions
nativeFuncs map[string]*NativeFunction
// A part of std object common to all files
baseStd valueObject
// Keeps imports
importCache *ImportCache
}
// Map union, b takes precedence when keys collide.
func addBindings(a, b bindingFrame) bindingFrame {
result := make(bindingFrame)
for k, v := range a {
result[k] = v
}
for k, v := range b {
result[k] = v
}
return result
}
func (i *interpreter) newCall(trace TraceElement, env environment, trimmable bool) error {
s := &i.stack
if s.calls >= s.limit {
return makeRuntimeError("max stack frames exceeded.", i.getCurrentStackTrace(trace))
}
s.newCall(trace, env, trimmable)
return nil
}
func (i *interpreter) evaluate(a ast.Node, tc tailCallStatus) (value, error) {
trace := TraceElement{
loc: a.Loc(),
context: a.Context(),
}
switch node := a.(type) {
case *ast.Array:
sb := i.stack.getSelfBinding()
var elements []*cachedThunk
for _, el := range node.Elements {
env := makeEnvironment(i.stack.capture(el.FreeVariables()), sb)
elThunk := cachedThunk{env: &env, body: el}
elements = append(elements, &elThunk)
}
return makeValueArray(elements), nil
case *ast.Binary:
if node.Op == ast.BopAnd {
// Special case for shortcut semantics.
xv, err := i.evaluate(node.Left, tc)
if err != nil {
return nil, err
}
x, err := i.getBoolean(xv, trace)
if err != nil {
return nil, err
}
if !x.value {
return x, nil
}
yv, err := i.evaluate(node.Right, tc)
if err != nil {
return nil, err
}
return i.getBoolean(yv, trace)
} else if node.Op == ast.BopOr {
// Special case for shortcut semantics.
xv, err := i.evaluate(node.Left, tc)
if err != nil {
return nil, err
}
x, err := i.getBoolean(xv, trace)
if err != nil {
return nil, err
}
if x.value {
return x, nil
}
yv, err := i.evaluate(node.Right, tc)
if err != nil {
return nil, err
}
return i.getBoolean(yv, trace)
} else {
left, err := i.evaluate(node.Left, tc)
if err != nil {
return nil, err
}
right, err := i.evaluate(node.Right, tc)
if err != nil {
return nil, err
}
// TODO(dcunnin): The double dereference here is probably not necessary.
builtin := bopBuiltins[node.Op]
return builtin.function(i, trace, left, right)
}
case *ast.Unary:
value, err := i.evaluate(node.Expr, tc)
if err != nil {
return nil, err
}
builtin := uopBuiltins[node.Op]
result, err := builtin.function(i, trace, value)
if err != nil {
return nil, err
}
return result, nil
case *ast.Conditional:
cond, err := i.evaluate(node.Cond, nonTailCall)
if err != nil {
return nil, err
}
condBool, err := i.getBoolean(cond, trace)
if err != nil {
return nil, err
}
if condBool.value {
return i.evaluate(node.BranchTrue, tc)
}
return i.evaluate(node.BranchFalse, tc)
case *ast.DesugaredObject:
// Evaluate all the field names. Check for null, dups, etc.
fields := make(simpleObjectFieldMap)
for _, field := range node.Fields {
fieldNameValue, err := i.evaluate(field.Name, nonTailCall)
if err != nil {
return nil, err
}
var fieldName string
switch fieldNameValue := fieldNameValue.(type) {
case *valueString:
fieldName = fieldNameValue.getString()
case *valueNull:
// Omitted field.
continue
default:
return nil, i.Error(fmt.Sprintf("Field name must be string, got %v", fieldNameValue.getType().name), trace)
}
if _, ok := fields[fieldName]; ok {
return nil, i.Error(duplicateFieldNameErrMsg(fieldName), trace)
}
var f unboundField = &codeUnboundField{field.Body}
if field.PlusSuper {
f = &PlusSuperUnboundField{f}
}
fields[fieldName] = simpleObjectField{field.Hide, f}
}
var asserts []unboundField
for _, assert := range node.Asserts {
asserts = append(asserts, &codeUnboundField{assert})
}
upValues := i.stack.capture(node.FreeVariables())
return makeValueSimpleObject(upValues, fields, asserts), nil
case *ast.Error:
msgVal, err := i.evaluate(node.Expr, nonTailCall)
if err != nil {
// error when evaluating error message
return nil, err
}
if msgVal.getType() != stringType {
msgVal, err = builtinToString(i, trace, msgVal)
if err != nil {
return nil, err
}
}
msg, err := i.getString(msgVal, trace)
if err != nil {
return nil, err
}
return nil, i.Error(msg.getString(), trace)
case *ast.Index:
targetValue, err := i.evaluate(node.Target, nonTailCall)
if err != nil {
return nil, err
}
index, err := i.evaluate(node.Index, nonTailCall)
if err != nil {
return nil, err
}
switch target := targetValue.(type) {
case valueObject:
indexString, err := i.getString(index, trace)
if err != nil {
return nil, err
}
return target.index(i, trace, indexString.getString())
case *valueArray:
indexInt, err := i.getNumber(index, trace)
if err != nil {
return nil, err
}
// TODO(https://github.com/google/jsonnet/issues/377): non-integer indexes should be an error
return target.index(i, trace, int(indexInt.value))
case *valueString:
indexInt, err := i.getNumber(index, trace)
if err != nil {
return nil, err
}
// TODO(https://github.com/google/jsonnet/issues/377): non-integer indexes should be an error
return target.index(i, trace, int(indexInt.value))
}
return nil, i.Error(fmt.Sprintf("Value non indexable: %v", reflect.TypeOf(targetValue)), trace)
case *ast.Import:
codePath := node.Loc().FileName
return i.importCache.ImportCode(codePath, node.File.Value, i, trace)
case *ast.ImportStr:
codePath := node.Loc().FileName
return i.importCache.ImportString(codePath, node.File.Value, i, trace)
case *ast.LiteralBoolean:
return makeValueBoolean(node.Value), nil
case *ast.LiteralNull:
return makeValueNull(), nil
case *ast.LiteralNumber:
return makeValueNumber(node.Value), nil
case *ast.LiteralString:
return makeValueString(node.Value), nil
case *ast.Local:
vars := make(bindingFrame)
bindEnv := i.stack.getCurrentEnv(a)
for _, bind := range node.Binds {
th := cachedThunk{env: &bindEnv, body: bind.Body}
// recursive locals
vars[bind.Variable] = &th
bindEnv.upValues[bind.Variable] = &th
}
i.stack.newLocal(vars)
sz := len(i.stack.stack)
// Add new stack frame, with new thunk for this variable
// execute body WRT stack frame.
v, err := i.evaluate(node.Body, tc)
i.stack.popIfExists(sz)
return v, err
case *ast.Self:
sb := i.stack.getSelfBinding()
return sb.self, nil
case *ast.Var:
foo := i.stack.lookUpVarOrPanic(node.Id)
return foo.getValue(i, trace)
case *ast.SuperIndex:
index, err := i.evaluate(node.Index, nonTailCall)
if err != nil {
return nil, err
}
indexStr, err := i.getString(index, trace)
if err != nil {
return nil, err
}
return objectIndex(i, trace, i.stack.getSelfBinding().super(), indexStr.getString())
case *ast.InSuper:
index, err := i.evaluate(node.Index, nonTailCall)
if err != nil {
return nil, err
}
indexStr, err := i.getString(index, trace)
if err != nil {
return nil, err
}
hasField := objectHasField(i.stack.getSelfBinding().super(), indexStr.getString(), withHidden)
return makeValueBoolean(hasField), nil
case *ast.Function:
return &valueFunction{
ec: makeClosure(i.stack.getCurrentEnv(a), node),
}, nil
case *ast.Apply:
// Eval target
target, err := i.evaluate(node.Target, nonTailCall)
if err != nil {
return nil, err
}
function, err := i.getFunction(target, trace)
if err != nil {
return nil, err
}
// environment in which we can evaluate arguments
argEnv := i.stack.getCurrentEnv(a)
arguments := callArguments{
positional: make([]*cachedThunk, len(node.Arguments.Positional)),
named: make([]namedCallArgument, len(node.Arguments.Named)),
tailstrict: node.TailStrict,
}
for i, arg := range node.Arguments.Positional {
arguments.positional[i] = &cachedThunk{env: &argEnv, body: arg}
}
for i, arg := range node.Arguments.Named {
arguments.named[i] = namedCallArgument{name: arg.Name, pv: &cachedThunk{env: &argEnv, body: arg.Arg}}
}
return i.evaluateTailCall(function, arguments, tc, trace)
case *astMakeArrayElement:
arguments := callArguments{
positional: []*cachedThunk{
&cachedThunk{
content: intToValue(node.index),
},
},
}
return i.evaluateTailCall(node.function, arguments, tc, trace)
default:
return nil, i.Error(fmt.Sprintf("Executing this AST type not implemented: %v", reflect.TypeOf(a)), trace)
}
}
// unparseString Wraps in "" and escapes stuff to make the string JSON-compliant and human-readable.
func unparseString(v string) string {
var buf bytes.Buffer
buf.WriteString("\"")
for _, c := range v {
switch c {
case '"':
buf.WriteString("\\\"")
case '\\':
buf.WriteString("\\\\")
case '\b':
buf.WriteString("\\b")
case '\f':
buf.WriteString("\\f")
case '\n':
buf.WriteString("\\n")
case '\r':
buf.WriteString("\\r")
case '\t':
buf.WriteString("\\t")
case 0:
buf.WriteString("\\u0000")
default:
if c < 0x20 || (c >= 0x7f && c <= 0x9f) {
buf.WriteString(fmt.Sprintf("\\u%04x", int(c)))
} else {
buf.WriteRune(c)
}
}
}
buf.WriteString("\"")
return buf.String()
}
func unparseNumber(v float64) string {
if v == math.Floor(v) {
return fmt.Sprintf("%.0f", v)
}
// See "What Every Computer Scientist Should Know About Floating-Point Arithmetic"
// Theorem 15
// http://docs.oracle.com/cd/E19957-01/806-3568/ncg_goldberg.html
return fmt.Sprintf("%.17g", v)
}
// manifestJSON converts to standard JSON representation as in "encoding/json" package
func (i *interpreter) manifestJSON(trace TraceElement, v value) (interface{}, error) {
switch v := v.(type) {
case *valueBoolean:
return v.value, nil
case *valueFunction:
return nil, makeRuntimeError("couldn't manifest function in JSON output.", i.getCurrentStackTrace(trace))
case *valueNumber:
return v.value, nil
case *valueString:
return v.getString(), nil
case *valueNull:
return nil, nil
case *valueArray:
result := make([]interface{}, 0, len(v.elements))
for _, th := range v.elements {
elVal, err := i.evaluatePV(th, trace)
if err != nil {
return nil, err
}
elem, err := i.manifestJSON(trace, elVal)
if err != nil {
return nil, err
}
result = append(result, elem)
}
return result, nil
case valueObject:
fieldNames := objectFields(v, withoutHidden)
sort.Strings(fieldNames)
err := checkAssertions(i, trace, v)
if err != nil {
return nil, err
}
result := make(map[string]interface{})
for _, fieldName := range fieldNames {
fieldVal, err := v.index(i, trace, fieldName)
if err != nil {
return nil, err
}
field, err := i.manifestJSON(trace, fieldVal)
if err != nil {
return nil, err
}
result[fieldName] = field
}
return result, nil
default:
return nil, makeRuntimeError(
fmt.Sprintf("manifesting this value not implemented yet: %s", reflect.TypeOf(v)),
i.getCurrentStackTrace(trace),
)
}
}
func serializeJSON(v interface{}, multiline bool, indent string, buf *bytes.Buffer) {
switch v := v.(type) {
case nil:
buf.WriteString("null")
case []interface{}:
if len(v) == 0 {
buf.WriteString("[ ]")
} else {
var prefix string
var indent2 string
if multiline {
prefix = "[\n"
indent2 = indent + " "
} else {
prefix = "["
indent2 = indent
}
for _, elem := range v {
buf.WriteString(prefix)
buf.WriteString(indent2)
serializeJSON(elem, multiline, indent2, buf)
if multiline {
prefix = ",\n"
} else {
prefix = ", "
}
}
if multiline {
buf.WriteString("\n")
}
buf.WriteString(indent)
buf.WriteString("]")
}
case bool:
if v {
buf.WriteString("true")
} else {
buf.WriteString("false")
}
case float64:
buf.WriteString(unparseNumber(v))
case map[string]interface{}:
fieldNames := make([]string, 0, len(v))
for name := range v {
fieldNames = append(fieldNames, name)
}
sort.Strings(fieldNames)
if len(fieldNames) == 0 {
buf.WriteString("{ }")
} else {
var prefix string
var indent2 string
if multiline {
prefix = "{\n"
indent2 = indent + " "
} else {
prefix = "{"
indent2 = indent
}
for _, fieldName := range fieldNames {
fieldVal := v[fieldName]
buf.WriteString(prefix)
buf.WriteString(indent2)
buf.WriteString(unparseString(fieldName))
buf.WriteString(": ")
serializeJSON(fieldVal, multiline, indent2, buf)
if multiline {
prefix = ",\n"
} else {
prefix = ", "
}
}
if multiline {
buf.WriteString("\n")
}
buf.WriteString(indent)
buf.WriteString("}")
}
case string:
buf.WriteString(unparseString(v))
default:
panic(fmt.Sprintf("Unsupported value for serialization %#+v", v))
}
}
func (i *interpreter) manifestAndSerializeJSON(
buf *bytes.Buffer, trace TraceElement, v value, multiline bool, indent string) error {
manifested, err := i.manifestJSON(trace, v)
if err != nil {
return err
}
serializeJSON(manifested, multiline, indent, buf)
return nil
}
// manifestString expects the value to be a string and returns it.
func (i *interpreter) manifestString(buf *bytes.Buffer, trace TraceElement, v value) error {
switch v := v.(type) {
case *valueString:
buf.WriteString(v.getString())
return nil
default:
return makeRuntimeError(fmt.Sprintf("expected string result, got: %s", v.getType().name), i.getCurrentStackTrace(trace))
}
}
func (i *interpreter) manifestAndSerializeMulti(trace TraceElement, v value, stringOutputMode bool) (r map[string]string, err error) {
r = make(map[string]string)
json, err := i.manifestJSON(trace, v)
if err != nil {
return r, err
}
switch json := json.(type) {
case map[string]interface{}:
for filename, fileJSON := range json {
if stringOutputMode {
switch val := fileJSON.(type) {
case string:
r[filename] = val
default:
msg := fmt.Sprintf("multi mode: top-level object's key %s has a value of type %T, "+
"should be a string", filename, val)
return r, makeRuntimeError(msg, i.getCurrentStackTrace(trace))
}
} else {
var buf bytes.Buffer
serializeJSON(fileJSON, true, "", &buf)
buf.WriteString("\n")
r[filename] = buf.String()
}
}
default:
msg := fmt.Sprintf("multi mode: top-level object was a %s, "+
"should be an object whose keys are filenames and values hold "+
"the JSON for that file.", v.getType().name)
return r, makeRuntimeError(msg, i.getCurrentStackTrace(trace))
}
return
}
func (i *interpreter) manifestAndSerializeYAMLStream(trace TraceElement, v value) (r []string, err error) {
r = make([]string, 0)
json, err := i.manifestJSON(trace, v)
if err != nil {
return r, err
}
switch json := json.(type) {
case []interface{}:
for _, doc := range json {
var buf bytes.Buffer
serializeJSON(doc, true, "", &buf)
buf.WriteString("\n")
r = append(r, buf.String())
}
default:
msg := fmt.Sprintf("stream mode: top-level object was a %s, "+
"should be an array whose elements hold "+
"the JSON for each document in the stream.", v.getType().name)
return r, makeRuntimeError(msg, i.getCurrentStackTrace(trace))
}
return
}
func jsonToValue(i *interpreter, trace TraceElement, v interface{}) (value, error) {
switch v := v.(type) {
case nil:
return &nullValue, nil
case []interface{}:
elems := make([]*cachedThunk, len(v))
for counter, elem := range v {
val, err := jsonToValue(i, trace, elem)
if err != nil {
return nil, err
}
elems[counter] = readyThunk(val)
}
return makeValueArray(elems), nil
case bool:
return makeValueBoolean(v), nil
case float64:
return makeValueNumber(v), nil
case map[string]interface{}:
fieldMap := map[string]value{}
for name, f := range v {
val, err := jsonToValue(i, trace, f)
if err != nil {
return nil, err
}
fieldMap[name] = val
}
return buildObject(ast.ObjectFieldInherit, fieldMap), nil
case string:
return makeValueString(v), nil
default:
return nil, i.Error(fmt.Sprintf("Not a json type: %#+v", v), trace)
}
}
func (i *interpreter) EvalInCleanEnv(fromWhere TraceElement, env *environment, ast ast.Node, trimmable bool) (value, error) {
err := i.newCall(fromWhere, *env, trimmable)
if err != nil {
return nil, err
}
stackSize := len(i.stack.stack)
val, err := i.evaluate(ast, tailCall)
i.stack.popIfExists(stackSize)
return val, err
}
func (i *interpreter) evaluatePV(ph potentialValue, trace TraceElement) (value, error) {
return ph.getValue(i, trace)
}
func (i *interpreter) evaluateTailCall(function *valueFunction, args callArguments, tc tailCallStatus, trace TraceElement) (value, error) {
if tc == tailCall {
i.stack.tailCallTrimStack()
}
return function.call(i, trace, args)
}
func (i *interpreter) Error(s string, trace TraceElement) error {
err := makeRuntimeError(s, i.getCurrentStackTrace(trace))
return err
}
func (i *interpreter) typeErrorSpecific(bad value, good value, trace TraceElement) error {
return i.Error(
fmt.Sprintf("Unexpected type %v, expected %v", bad.getType().name, good.getType().name),
trace,
)
}
func (i *interpreter) typeErrorGeneral(bad value, trace TraceElement) error {
return i.Error(
fmt.Sprintf("Unexpected type %v", bad.getType().name),
trace,
)
}
func (i *interpreter) getNumber(val value, trace TraceElement) (*valueNumber, error) {
switch v := val.(type) {
case *valueNumber:
return v, nil
default:
return nil, i.typeErrorSpecific(val, &valueNumber{}, trace)
}
}
func (i *interpreter) evaluateNumber(pv potentialValue, trace TraceElement) (*valueNumber, error) {
v, err := i.evaluatePV(pv, trace)
if err != nil {
return nil, err
}
return i.getNumber(v, trace)
}
func (i *interpreter) getInt(val value, trace TraceElement) (int, error) {
num, err := i.getNumber(val, trace)
if err != nil {
return 0, err
}
// We conservatively convert ot int32, so that it can be machine-sized int
// on any machine. And it's used only for indexing anyway.
intNum := int(int32(num.value))
if float64(intNum) != num.value {
return 0, i.Error(fmt.Sprintf("Expected an integer, but got %v", num.value), trace)
}
return intNum, nil
}
func (i *interpreter) evaluateInt(pv potentialValue, trace TraceElement) (int, error) {
v, err := i.evaluatePV(pv, trace)
if err != nil {
return 0, err
}
return i.getInt(v, trace)
}
func (i *interpreter) getInt64(val value, trace TraceElement) (int64, error) {
num, err := i.getNumber(val, trace)
if err != nil {
return 0, err
}
intNum := int64(num.value)
if float64(intNum) != num.value {
return 0, i.Error(fmt.Sprintf("Expected an integer, but got %v", num.value), trace)
}
return intNum, nil
}
func (i *interpreter) evaluateInt64(pv potentialValue, trace TraceElement) (int64, error) {
v, err := i.evaluatePV(pv, trace)
if err != nil {
return 0, err
}
return i.getInt64(v, trace)
}
func (i *interpreter) getString(val value, trace TraceElement) (*valueString, error) {