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c62b8a5d4f1c78fa646ad3a6591ea0d4ee354116
mgmt/lang/interfaces/ast.go
James Shubin c62b8a5d4f lang: Add class and include statements 
This adds support for the class definition statement and the include
statement which produces the output from the corresponding class.

The classes in this language support optional input parameters.

In contrast with other tools, the class is *not* a singleton, although
it can be used as one. Using include with equivalent input parameters
will cause the class to act as a singleton, although it can also be used
to produce distinct output.

The output produced by including a class is actually a list of
statements (a prog) which is ultimately a list of resources and edges.
This is different from functions which produces values.
2018-06-17 17:29:44 -04:00

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// Mgmt
// Copyright (C) 2013-2018+ James Shubin and the project contributors
// Written by James Shubin <james@shubin.ca> and the project contributors
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
package interfaces
import (
"github.com/purpleidea/mgmt/engine"
"github.com/purpleidea/mgmt/lang/types"
"github.com/purpleidea/mgmt/pgraph"
)
const (
// Debug enables debugging for some commonly used debug information.
Debug = false
)
// Stmt represents a statement node in the language. A stmt could be a resource,
// a `bind` statement, or even an `if` statement. (Different from an `if`
// expression.)
type Stmt interface {
Interpolate() (Stmt, error) // return expanded form of AST as a new AST
SetScope(*Scope) error // set the scope here and propagate it downwards
Unify() ([]Invariant, error) // TODO: is this named correctly?
Graph() (*pgraph.Graph, error)
Output() (*Output, error)
}
// Expr represents an expression in the language. Expr implementations must have
// their method receivers implemented as pointer receivers so that they can be
// easily copied and moved around. Expr also implements pgraph.Vertex so that
// these can be stored as pointers in our graph data structure.
type Expr interface {
pgraph.Vertex // must implement this since we store these in our graphs
Interpolate() (Expr, error) // return expanded form of AST as a new AST
SetScope(*Scope) error // set the scope here and propagate it downwards
SetType(*types.Type) error // sets the type definitively, errors if incompatible
Type() (*types.Type, error)
Unify() ([]Invariant, error) // TODO: is this named correctly?
Graph() (*pgraph.Graph, error)
Func() (Func, error) // a function that represents this reactively
SetValue(types.Value) error
Value() (types.Value, error)
}
// Scope represents a mapping between a variables identifier and the
// corresponding expression it is bound to. Local scopes in this language exist
// and are formed by nesting within if statements. Child scopes can shadow
// variables in parent scopes, which is another way of saying they can redefine
// previously used variables as long as the new binding happens within a child
// scope. This is useful so that someone in the top scope can't prevent a child
// module from ever using that variable name again. It might be worth revisiting
// this point in the future if we find it adds even greater code safety. Please
// report any bugs you have written that would have been prevented by this.
type Scope struct {
Variables map[string]Expr
//Functions map[string]??? // TODO: do we want a separate namespace for user defined functions?
Classes map[string]Stmt
}
// Empty returns the zero, empty value for the scope, with all the internal
// lists initialized appropriately.
func (obj *Scope) Empty() *Scope {
return &Scope{
Variables: make(map[string]Expr),
//Functions: ???,
Classes: make(map[string]Stmt),
}
}
// Copy makes a copy of the Scope struct. This ensures that if the internal map
// is changed, it doesn't affect other copies of the Scope. It does *not* copy
// or change the Expr pointers contained within, since these are references, and
// we need those to be consistently pointing to the same things after copying.
func (obj *Scope) Copy() *Scope {
variables := make(map[string]Expr)
classes := make(map[string]Stmt)
if obj != nil { // allow copying nil scopes
for k, v := range obj.Variables { // copy
variables[k] = v // we don't copy the expr's!
}
for k, v := range obj.Classes { // copy
classes[k] = v // we don't copy the StmtClass!
}
}
return &Scope{
Variables: variables,
Classes: classes,
}
}
// Edge is the data structure representing a compiled edge that is used in the
// lang to express a dependency between two resources and optionally send/recv.
type Edge struct {
Kind1 string // kind of resource
Name1 string // name of resource
Send string // name of field used for send/recv (optional)
Kind2 string // kind of resource
Name2 string // name of resource
Recv string // name of field used for send/recv (optional)
Notify bool // is there a notification being sent?
}
// Output is a collection of data returned by a Stmt.
type Output struct { // returned by Stmt
Resources []engine.Res
Edges []*Edge
//Exported []*Exports // TODO: add exported resources
}
// Empty returns the zero, empty value for the output, with all the internal
// lists initialized appropriately.
func (obj *Output) Empty() *Output {
return &Output{
Resources: []engine.Res{},
Edges: []*Edge{},
}
}
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