pulumi/pkg/codegen/python/gen_program_lower.go

package python

import (
	"github.com/hashicorp/hcl/v2"
	"github.com/hashicorp/hcl/v2/hclsyntax"
	"github.com/pulumi/pulumi/pkg/v2/codegen/hcl2"
	"github.com/pulumi/pulumi/pkg/v2/codegen/hcl2/model"
	"github.com/pulumi/pulumi/pkg/v2/codegen/schema"
	"github.com/pulumi/pulumi/sdk/v2/go/common/util/contract"
	"github.com/zclconf/go-cty/cty"
)

// parseProxyApply attempts to match the given parsed apply against the pattern (call __applyArg 0). If the call
// matches, it returns the ScopeTraversalExpression that corresponds to argument zero, which can then be generated as a
// proxied apply call.
func (g *generator) parseProxyApply(args []*model.ScopeTraversalExpression,
	then *model.AnonymousFunctionExpression) (*model.ScopeTraversalExpression, bool) {

	if len(args) != 1 {
		return nil, false
	}

	thenTraversal, ok := then.Body.(*model.ScopeTraversalExpression)
	if !ok || thenTraversal.Parts[0] != then.Parameters[0] {
		return nil, false
	}

	traversal := hcl.TraversalJoin(args[0].Traversal, thenTraversal.Traversal[1:])
	expr, diags := g.program.BindExpression(&hclsyntax.ScopeTraversalExpr{
		Traversal: traversal,
		SrcRange:  traversal.SourceRange(),
	})
	contract.Assert(len(diags) == 0)
	return expr.(*model.ScopeTraversalExpression), true
}

// lowerProxyApplies lowers certain calls to the apply intrinsic into proxied property accesses. Concretely, this boils
// down to rewriting the following shape:
// - (call __apply (resource variable access) (call __applyArg 0))
// into
// - (resource variable access)
func (g *generator) lowerProxyApplies(expr model.Expression) (model.Expression, hcl.Diagnostics) {
	rewriter := func(expr model.Expression) (model.Expression, hcl.Diagnostics) {
		// Ignore the node if it is not a call to the apply intrinsic.
		apply, ok := expr.(*model.FunctionCallExpression)
		if !ok || apply.Name != hcl2.IntrinsicApply {
			return expr, nil
		}

		// Parse the apply call.
		args, then := hcl2.ParseApplyCall(apply)

		// Attempt to match (call __apply (rvar) (call __applyArg 0))
		if v, ok := g.parseProxyApply(args, then); ok {
			return v, nil
		}

		return expr, nil
	}
	return model.VisitExpression(expr, model.IdentityVisitor, rewriter)
}

func (g *generator) mapObjectKey(key string, obj *schema.ObjectType) string {
	if obj == nil {
		return key
	}

	prop, ok := obj.Property(key)
	if !ok {
		return key
	}

	mapCase := true
	if info, ok := prop.Language["python"]; ok {
		mapCase = info.(PropertyInfo).MapCase
	}
	if mapCase {
		return PyName(key)
	}

	return key
}

func (g *generator) getObjectSchema(typ model.Type) *schema.ObjectType {
	typ = model.ResolveOutputs(typ)

	if union, ok := typ.(*model.UnionType); ok {
		for _, t := range union.ElementTypes {
			if obj := g.getObjectSchema(t); obj != nil {
				return obj
			}
		}
		return nil
	}

	annotations := typ.GetAnnotations()
	if len(annotations) == 1 {
		return annotations[0].(*schema.ObjectType)
	}
	return nil
}

func (g *generator) lowerObjectKeys(expr model.Expression, destType model.Type) {
	rewriter := func(expr model.Expression) (model.Expression, hcl.Diagnostics) {
		switch expr := expr.(type) {
		case *model.ObjectConsExpression:
			obj := g.getObjectSchema(destType)
			for _, item := range expr.Items {
				// Ignore non-literal keys
				valueType := model.Type(model.DynamicType)
				if key, ok := item.Key.(*model.LiteralValueExpression); ok && key.Value.Type().Equals(cty.String) {
					k := key.Value.AsString()

					vt, diags := destType.Traverse(hcl.TraverseAttr{Name: k})
					contract.Ignore(diags)

					valueType = vt.(model.Type)
					key.Value = cty.StringVal(g.mapObjectKey(k, obj))
				}

				g.lowerObjectKeys(item.Value, valueType)
			}
		case *model.TupleConsExpression:
			valueType, diags := destType.Traverse(hcl.TraverseIndex{Key: cty.NumberIntVal(0)})
			contract.Ignore(diags)

			for _, element := range expr.Expressions {
				g.lowerObjectKeys(element, valueType.(model.Type))
			}
		}
		return expr, nil
	}
	_, diags := model.VisitExpression(expr, rewriter, nil)
	contract.Assert(len(diags) == 0)
}
Add a code generator for Python programs. (#4285) This code generator processes a bound Pulumi program represented using an HCL2-based IR and converts it to an equivalent Python program. 2020-04-03 08:29:05 +02:00			`package python`

			`import (`
			`"github.com/hashicorp/hcl/v2"`
			`"github.com/hashicorp/hcl/v2/hclsyntax"`
Breaking changes due to Feature 2.0 work * Make `async:true` the default for `invoke` calls (#3750) * Switch away from native grpc impl. (#3728) * Remove usage of the 'deasync' library from @pulumi/pulumi. (#3752) * Only retry as long as we get unavailable back. Anything else continues. (#3769) * Handle all errors for now. (#3781) * Do not assume --yes was present when using pulumi in non-interactive mode (#3793) * Upgrade all paths for sdk and pkg to v2 * Backport C# invoke classes and other recent gen changes (#4288) Adjust C# generation * Replace IDeployment with a sealed class (#4318) Replace IDeployment with a sealed class * .NET: default to args subtype rather than Args.Empty (#4320) * Adding system namespace for Dotnet code gen This is required for using Obsolute attributes for deprecations ``` Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'ObsoleteAttribute' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj] Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'Obsolete' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj] ``` * Fix the nullability of config type properties in C# codegen (#4379) 2020-04-14 10:30:25 +02:00			`"github.com/pulumi/pulumi/pkg/v2/codegen/hcl2"`
			`"github.com/pulumi/pulumi/pkg/v2/codegen/hcl2/model"`
Fix Python input property names. - Fix input property names and forms for invokes. Previously we generated a dict; now we generate properly-named args. - Fix nested property names for resources. 2020-04-21 22:52:24 +02:00			`"github.com/pulumi/pulumi/pkg/v2/codegen/schema"`
Breaking changes due to Feature 2.0 work * Make `async:true` the default for `invoke` calls (#3750) * Switch away from native grpc impl. (#3728) * Remove usage of the 'deasync' library from @pulumi/pulumi. (#3752) * Only retry as long as we get unavailable back. Anything else continues. (#3769) * Handle all errors for now. (#3781) * Do not assume --yes was present when using pulumi in non-interactive mode (#3793) * Upgrade all paths for sdk and pkg to v2 * Backport C# invoke classes and other recent gen changes (#4288) Adjust C# generation * Replace IDeployment with a sealed class (#4318) Replace IDeployment with a sealed class * .NET: default to args subtype rather than Args.Empty (#4320) * Adding system namespace for Dotnet code gen This is required for using Obsolute attributes for deprecations ``` Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'ObsoleteAttribute' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj] Iam/InstanceProfile.cs(142,10): error CS0246: The type or namespace name 'Obsolete' could not be found (are you missing a using directive or an assembly reference?) [/Users/stack72/code/go/src/github.com/pulumi/pulumi-aws/sdk/dotnet/Pulumi.Aws.csproj] ``` * Fix the nullability of config type properties in C# codegen (#4379) 2020-04-14 10:30:25 +02:00			`"github.com/pulumi/pulumi/sdk/v2/go/common/util/contract"`
Fix Python input property names. - Fix input property names and forms for invokes. Previously we generated a dict; now we generate properly-named args. - Fix nested property names for resources. 2020-04-21 22:52:24 +02:00			`"github.com/zclconf/go-cty/cty"`
Add a code generator for Python programs. (#4285) This code generator processes a bound Pulumi program represented using an HCL2-based IR and converts it to an equivalent Python program. 2020-04-03 08:29:05 +02:00			`)`

			`// parseProxyApply attempts to match the given parsed apply against the pattern (call __applyArg 0). If the call`
			`// matches, it returns the ScopeTraversalExpression that corresponds to argument zero, which can then be generated as a`
			`// proxied apply call.`
			`func (g generator) parseProxyApply(args []model.ScopeTraversalExpression,`
			`then model.AnonymousFunctionExpression) (model.ScopeTraversalExpression, bool) {`

			`if len(args) != 1 {`
			`return nil, false`
			`}`

			`thenTraversal, ok := then.Body.(*model.ScopeTraversalExpression)`
			`if !ok \|\| thenTraversal.Parts[0] != then.Parameters[0] {`
			`return nil, false`
			`}`

HCL2: support for tolerating missing variables. (#4430) When this tolerance is enabled, diagnostics will not be emitted for missing variables. 2020-04-17 17:24:44 +02:00			`traversal := hcl.TraversalJoin(args[0].Traversal, thenTraversal.Traversal[1:])`
Add a code generator for Python programs. (#4285) This code generator processes a bound Pulumi program represented using an HCL2-based IR and converts it to an equivalent Python program. 2020-04-03 08:29:05 +02:00			`expr, diags := g.program.BindExpression(&hclsyntax.ScopeTraversalExpr{`
			`Traversal: traversal,`
			`SrcRange: traversal.SourceRange(),`
			`})`
			`contract.Assert(len(diags) == 0)`
			`return expr.(*model.ScopeTraversalExpression), true`
			`}`

			`// lowerProxyApplies lowers certain calls to the apply intrinsic into proxied property accesses. Concretely, this boils`
			`// down to rewriting the following shape:`
			`// - (call __apply (resource variable access) (call __applyArg 0))`
			`// into`
			`// - (resource variable access)`
			`func (g *generator) lowerProxyApplies(expr model.Expression) (model.Expression, hcl.Diagnostics) {`
			`rewriter := func(expr model.Expression) (model.Expression, hcl.Diagnostics) {`
			`// Ignore the node if it is not a call to the apply intrinsic.`
			`apply, ok := expr.(*model.FunctionCallExpression)`
			`if !ok \|\| apply.Name != hcl2.IntrinsicApply {`
			`return expr, nil`
			`}`

			`// Parse the apply call.`
			`args, then := hcl2.ParseApplyCall(apply)`

			`// Attempt to match (call __apply (rvar) (call __applyArg 0))`
			`if v, ok := g.parseProxyApply(args, then); ok {`
			`return v, nil`
			`}`

			`return expr, nil`
			`}`
			`return model.VisitExpression(expr, model.IdentityVisitor, rewriter)`
			`}`
Fix Python input property names. - Fix input property names and forms for invokes. Previously we generated a dict; now we generate properly-named args. - Fix nested property names for resources. 2020-04-21 22:52:24 +02:00
			`func (g generator) mapObjectKey(key string, obj schema.ObjectType) string {`
			`if obj == nil {`
			`return key`
			`}`

			`prop, ok := obj.Property(key)`
			`if !ok {`
			`return key`
			`}`

			`mapCase := true`
			`if info, ok := prop.Language["python"]; ok {`
			`mapCase = info.(PropertyInfo).MapCase`
			`}`
			`if mapCase {`
			`return PyName(key)`
			`}`

			`return key`
			`}`

			`func (g generator) getObjectSchema(typ model.Type) schema.ObjectType {`
			`typ = model.ResolveOutputs(typ)`

			`if union, ok := typ.(*model.UnionType); ok {`
			`for _, t := range union.ElementTypes {`
			`if obj := g.getObjectSchema(t); obj != nil {`
			`return obj`
			`}`
			`}`
			`return nil`
			`}`

			`annotations := typ.GetAnnotations()`
			`if len(annotations) == 1 {`
			`return annotations[0].(*schema.ObjectType)`
			`}`
			`return nil`
			`}`

			`func (g *generator) lowerObjectKeys(expr model.Expression, destType model.Type) {`
			`rewriter := func(expr model.Expression) (model.Expression, hcl.Diagnostics) {`
			`switch expr := expr.(type) {`
			`case *model.ObjectConsExpression:`
			`obj := g.getObjectSchema(destType)`
			`for _, item := range expr.Items {`
			`// Ignore non-literal keys`
			`valueType := model.Type(model.DynamicType)`
			`if key, ok := item.Key.(*model.LiteralValueExpression); ok && key.Value.Type().Equals(cty.String) {`
			`k := key.Value.AsString()`

			`vt, diags := destType.Traverse(hcl.TraverseAttr{Name: k})`
			`contract.Ignore(diags)`

			`valueType = vt.(model.Type)`
			`key.Value = cty.StringVal(g.mapObjectKey(k, obj))`
			`}`

			`g.lowerObjectKeys(item.Value, valueType)`
			`}`
			`case *model.TupleConsExpression:`
			`valueType, diags := destType.Traverse(hcl.TraverseIndex{Key: cty.NumberIntVal(0)})`
			`contract.Ignore(diags)`

			`for _, element := range expr.Expressions {`
			`g.lowerObjectKeys(element, valueType.(model.Type))`
			`}`
			`}`
			`return expr, nil`
			`}`
			`_, diags := model.VisitExpression(expr, rewriter, nil)`
			`contract.Assert(len(diags) == 0)`
			`}`