@cdktf/provider-google/lib/vmwareengine-cluster/index.js

Prebuilt google Provider for Terraform CDK (cdktf)

"use strict";
var _a, _b, _c, _d, _e, _f, _g, _h, _j, _k;
Object.defineProperty(exports, "__esModule", { value: true });
exports.VmwareengineCluster = exports.VmwareengineClusterTimeoutsOutputReference = exports.vmwareengineClusterTimeoutsToHclTerraform = exports.vmwareengineClusterTimeoutsToTerraform = exports.VmwareengineClusterNodeTypeConfigsList = exports.VmwareengineClusterNodeTypeConfigsOutputReference = exports.vmwareengineClusterNodeTypeConfigsToHclTerraform = exports.vmwareengineClusterNodeTypeConfigsToTerraform = exports.VmwareengineClusterAutoscalingSettingsOutputReference = exports.vmwareengineClusterAutoscalingSettingsToHclTerraform = exports.vmwareengineClusterAutoscalingSettingsToTerraform = exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList = exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToHclTerraform = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToTerraform = exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToHclTerraform = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToTerraform = exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToHclTerraform = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToTerraform = exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToHclTerraform = exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToTerraform = void 0;
const JSII_RTTI_SYMBOL_1 = Symbol.for("jsii.rtti");
const cdktf = require("cdktf");
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        scale_in: cdktf.numberToTerraform(struct.scaleIn),
        scale_out: cdktf.numberToTerraform(struct.scaleOut),
    };
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToTerraform;
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        scale_in: {
            value: cdktf.numberToHclTerraform(struct.scaleIn),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        scale_out: {
            value: cdktf.numberToHclTerraform(struct.scaleOut),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToHclTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToHclTerraform;
class VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    */
    constructor(terraformResource, terraformAttribute) {
        super(terraformResource, terraformAttribute, false, 0);
        this.isEmptyObject = false;
    }
    get internalValue() {
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._scaleIn !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleIn = this._scaleIn;
        }
        if (this._scaleOut !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleOut = this._scaleOut;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this._scaleIn = undefined;
            this._scaleOut = undefined;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this._scaleIn = value.scaleIn;
            this._scaleOut = value.scaleOut;
        }
    }
    get scaleIn() {
        return this.getNumberAttribute('scale_in');
    }
    set scaleIn(value) {
        this._scaleIn = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleInInput() {
        return this._scaleIn;
    }
    get scaleOut() {
        return this.getNumberAttribute('scale_out');
    }
    set scaleOut(value) {
        this._scaleOut = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleOutInput() {
        return this._scaleOut;
    }
}
exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference = VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference;
_a = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference[_a] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference", version: "14.12.0" };
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        scale_in: cdktf.numberToTerraform(struct.scaleIn),
        scale_out: cdktf.numberToTerraform(struct.scaleOut),
    };
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToTerraform;
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        scale_in: {
            value: cdktf.numberToHclTerraform(struct.scaleIn),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        scale_out: {
            value: cdktf.numberToHclTerraform(struct.scaleOut),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToHclTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToHclTerraform;
class VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    */
    constructor(terraformResource, terraformAttribute) {
        super(terraformResource, terraformAttribute, false, 0);
        this.isEmptyObject = false;
    }
    get internalValue() {
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._scaleIn !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleIn = this._scaleIn;
        }
        if (this._scaleOut !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleOut = this._scaleOut;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this._scaleIn = undefined;
            this._scaleOut = undefined;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this._scaleIn = value.scaleIn;
            this._scaleOut = value.scaleOut;
        }
    }
    get scaleIn() {
        return this.getNumberAttribute('scale_in');
    }
    set scaleIn(value) {
        this._scaleIn = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleInInput() {
        return this._scaleIn;
    }
    get scaleOut() {
        return this.getNumberAttribute('scale_out');
    }
    set scaleOut(value) {
        this._scaleOut = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleOutInput() {
        return this._scaleOut;
    }
}
exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference = VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference;
_b = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference[_b] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference", version: "14.12.0" };
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        scale_in: cdktf.numberToTerraform(struct.scaleIn),
        scale_out: cdktf.numberToTerraform(struct.scaleOut),
    };
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToTerraform;
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        scale_in: {
            value: cdktf.numberToHclTerraform(struct.scaleIn),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        scale_out: {
            value: cdktf.numberToHclTerraform(struct.scaleOut),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToHclTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToHclTerraform;
class VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    */
    constructor(terraformResource, terraformAttribute) {
        super(terraformResource, terraformAttribute, false, 0);
        this.isEmptyObject = false;
    }
    get internalValue() {
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._scaleIn !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleIn = this._scaleIn;
        }
        if (this._scaleOut !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleOut = this._scaleOut;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this._scaleIn = undefined;
            this._scaleOut = undefined;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this._scaleIn = value.scaleIn;
            this._scaleOut = value.scaleOut;
        }
    }
    get scaleIn() {
        return this.getNumberAttribute('scale_in');
    }
    set scaleIn(value) {
        this._scaleIn = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleInInput() {
        return this._scaleIn;
    }
    get scaleOut() {
        return this.getNumberAttribute('scale_out');
    }
    set scaleOut(value) {
        this._scaleOut = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleOutInput() {
        return this._scaleOut;
    }
}
exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference = VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference;
_c = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference[_c] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference", version: "14.12.0" };
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        autoscale_policy_id: cdktf.stringToTerraform(struct.autoscalePolicyId),
        node_type_id: cdktf.stringToTerraform(struct.nodeTypeId),
        scale_out_size: cdktf.numberToTerraform(struct.scaleOutSize),
        consumed_memory_thresholds: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToTerraform(struct.consumedMemoryThresholds),
        cpu_thresholds: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToTerraform(struct.cpuThresholds),
        storage_thresholds: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToTerraform(struct.storageThresholds),
    };
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToTerraform;
function vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        autoscale_policy_id: {
            value: cdktf.stringToHclTerraform(struct.autoscalePolicyId),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
        node_type_id: {
            value: cdktf.stringToHclTerraform(struct.nodeTypeId),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
        scale_out_size: {
            value: cdktf.numberToHclTerraform(struct.scaleOutSize),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        consumed_memory_thresholds: {
            value: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsToHclTerraform(struct.consumedMemoryThresholds),
            isBlock: true,
            type: "list",
            storageClassType: "VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsList",
        },
        cpu_thresholds: {
            value: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsToHclTerraform(struct.cpuThresholds),
            isBlock: true,
            type: "list",
            storageClassType: "VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsList",
        },
        storage_thresholds: {
            value: vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsToHclTerraform(struct.storageThresholds),
            isBlock: true,
            type: "list",
            storageClassType: "VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsList",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToHclTerraform = vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToHclTerraform;
class VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    * @param complexObjectIndex the index of this item in the list
    * @param complexObjectIsFromSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
    */
    constructor(terraformResource, terraformAttribute, complexObjectIndex, complexObjectIsFromSet) {
        super(terraformResource, terraformAttribute, complexObjectIsFromSet, complexObjectIndex);
        this.isEmptyObject = false;
        // consumed_memory_thresholds - computed: false, optional: true, required: false
        this._consumedMemoryThresholds = new VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesConsumedMemoryThresholdsOutputReference(this, "consumed_memory_thresholds");
        // cpu_thresholds - computed: false, optional: true, required: false
        this._cpuThresholds = new VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesCpuThresholdsOutputReference(this, "cpu_thresholds");
        // storage_thresholds - computed: false, optional: true, required: false
        this._storageThresholds = new VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesStorageThresholdsOutputReference(this, "storage_thresholds");
    }
    get internalValue() {
        if (this.resolvableValue) {
            return this.resolvableValue;
        }
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._autoscalePolicyId !== undefined) {
            hasAnyValues = true;
            internalValueResult.autoscalePolicyId = this._autoscalePolicyId;
        }
        if (this._nodeTypeId !== undefined) {
            hasAnyValues = true;
            internalValueResult.nodeTypeId = this._nodeTypeId;
        }
        if (this._scaleOutSize !== undefined) {
            hasAnyValues = true;
            internalValueResult.scaleOutSize = this._scaleOutSize;
        }
        if (this._consumedMemoryThresholds?.internalValue !== undefined) {
            hasAnyValues = true;
            internalValueResult.consumedMemoryThresholds = this._consumedMemoryThresholds?.internalValue;
        }
        if (this._cpuThresholds?.internalValue !== undefined) {
            hasAnyValues = true;
            internalValueResult.cpuThresholds = this._cpuThresholds?.internalValue;
        }
        if (this._storageThresholds?.internalValue !== undefined) {
            hasAnyValues = true;
            internalValueResult.storageThresholds = this._storageThresholds?.internalValue;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this.resolvableValue = undefined;
            this._autoscalePolicyId = undefined;
            this._nodeTypeId = undefined;
            this._scaleOutSize = undefined;
            this._consumedMemoryThresholds.internalValue = undefined;
            this._cpuThresholds.internalValue = undefined;
            this._storageThresholds.internalValue = undefined;
        }
        else if (cdktf.Tokenization.isResolvable(value)) {
            this.isEmptyObject = false;
            this.resolvableValue = value;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this.resolvableValue = undefined;
            this._autoscalePolicyId = value.autoscalePolicyId;
            this._nodeTypeId = value.nodeTypeId;
            this._scaleOutSize = value.scaleOutSize;
            this._consumedMemoryThresholds.internalValue = value.consumedMemoryThresholds;
            this._cpuThresholds.internalValue = value.cpuThresholds;
            this._storageThresholds.internalValue = value.storageThresholds;
        }
    }
    get autoscalePolicyId() {
        return this.getStringAttribute('autoscale_policy_id');
    }
    set autoscalePolicyId(value) {
        this._autoscalePolicyId = value;
    }
    // Temporarily expose input value. Use with caution.
    get autoscalePolicyIdInput() {
        return this._autoscalePolicyId;
    }
    get nodeTypeId() {
        return this.getStringAttribute('node_type_id');
    }
    set nodeTypeId(value) {
        this._nodeTypeId = value;
    }
    // Temporarily expose input value. Use with caution.
    get nodeTypeIdInput() {
        return this._nodeTypeId;
    }
    get scaleOutSize() {
        return this.getNumberAttribute('scale_out_size');
    }
    set scaleOutSize(value) {
        this._scaleOutSize = value;
    }
    // Temporarily expose input value. Use with caution.
    get scaleOutSizeInput() {
        return this._scaleOutSize;
    }
    get consumedMemoryThresholds() {
        return this._consumedMemoryThresholds;
    }
    putConsumedMemoryThresholds(value) {
        this._consumedMemoryThresholds.internalValue = value;
    }
    resetConsumedMemoryThresholds() {
        this._consumedMemoryThresholds.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get consumedMemoryThresholdsInput() {
        return this._consumedMemoryThresholds.internalValue;
    }
    get cpuThresholds() {
        return this._cpuThresholds;
    }
    putCpuThresholds(value) {
        this._cpuThresholds.internalValue = value;
    }
    resetCpuThresholds() {
        this._cpuThresholds.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get cpuThresholdsInput() {
        return this._cpuThresholds.internalValue;
    }
    get storageThresholds() {
        return this._storageThresholds;
    }
    putStorageThresholds(value) {
        this._storageThresholds.internalValue = value;
    }
    resetStorageThresholds() {
        this._storageThresholds.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get storageThresholdsInput() {
        return this._storageThresholds.internalValue;
    }
}
exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference = VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference;
_d = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference[_d] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference", version: "14.12.0" };
class VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList extends cdktf.ComplexList {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    * @param wrapsSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
    */
    constructor(terraformResource, terraformAttribute, wrapsSet) {
        super(terraformResource, terraformAttribute, wrapsSet);
        this.terraformResource = terraformResource;
        this.terraformAttribute = terraformAttribute;
        this.wrapsSet = wrapsSet;
    }
    /**
    * @param index the index of the item to return
    */
    get(index) {
        return new VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesOutputReference(this.terraformResource, this.terraformAttribute, index, this.wrapsSet);
    }
}
exports.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList = VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList;
_e = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList[_e] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList", version: "14.12.0" };
function vmwareengineClusterAutoscalingSettingsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        cool_down_period: cdktf.stringToTerraform(struct.coolDownPeriod),
        max_cluster_node_count: cdktf.numberToTerraform(struct.maxClusterNodeCount),
        min_cluster_node_count: cdktf.numberToTerraform(struct.minClusterNodeCount),
        autoscaling_policies: cdktf.listMapper(vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToTerraform, true)(struct.autoscalingPolicies),
    };
}
exports.vmwareengineClusterAutoscalingSettingsToTerraform = vmwareengineClusterAutoscalingSettingsToTerraform;
function vmwareengineClusterAutoscalingSettingsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        cool_down_period: {
            value: cdktf.stringToHclTerraform(struct.coolDownPeriod),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
        max_cluster_node_count: {
            value: cdktf.numberToHclTerraform(struct.maxClusterNodeCount),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        min_cluster_node_count: {
            value: cdktf.numberToHclTerraform(struct.minClusterNodeCount),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        autoscaling_policies: {
            value: cdktf.listMapperHcl(vmwareengineClusterAutoscalingSettingsAutoscalingPoliciesToHclTerraform, true)(struct.autoscalingPolicies),
            isBlock: true,
            type: "set",
            storageClassType: "VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterAutoscalingSettingsToHclTerraform = vmwareengineClusterAutoscalingSettingsToHclTerraform;
class VmwareengineClusterAutoscalingSettingsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    */
    constructor(terraformResource, terraformAttribute) {
        super(terraformResource, terraformAttribute, false, 0);
        this.isEmptyObject = false;
        // autoscaling_policies - computed: false, optional: false, required: true
        this._autoscalingPolicies = new VmwareengineClusterAutoscalingSettingsAutoscalingPoliciesList(this, "autoscaling_policies", true);
    }
    get internalValue() {
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._coolDownPeriod !== undefined) {
            hasAnyValues = true;
            internalValueResult.coolDownPeriod = this._coolDownPeriod;
        }
        if (this._maxClusterNodeCount !== undefined) {
            hasAnyValues = true;
            internalValueResult.maxClusterNodeCount = this._maxClusterNodeCount;
        }
        if (this._minClusterNodeCount !== undefined) {
            hasAnyValues = true;
            internalValueResult.minClusterNodeCount = this._minClusterNodeCount;
        }
        if (this._autoscalingPolicies?.internalValue !== undefined) {
            hasAnyValues = true;
            internalValueResult.autoscalingPolicies = this._autoscalingPolicies?.internalValue;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this._coolDownPeriod = undefined;
            this._maxClusterNodeCount = undefined;
            this._minClusterNodeCount = undefined;
            this._autoscalingPolicies.internalValue = undefined;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this._coolDownPeriod = value.coolDownPeriod;
            this._maxClusterNodeCount = value.maxClusterNodeCount;
            this._minClusterNodeCount = value.minClusterNodeCount;
            this._autoscalingPolicies.internalValue = value.autoscalingPolicies;
        }
    }
    get coolDownPeriod() {
        return this.getStringAttribute('cool_down_period');
    }
    set coolDownPeriod(value) {
        this._coolDownPeriod = value;
    }
    resetCoolDownPeriod() {
        this._coolDownPeriod = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get coolDownPeriodInput() {
        return this._coolDownPeriod;
    }
    get maxClusterNodeCount() {
        return this.getNumberAttribute('max_cluster_node_count');
    }
    set maxClusterNodeCount(value) {
        this._maxClusterNodeCount = value;
    }
    resetMaxClusterNodeCount() {
        this._maxClusterNodeCount = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get maxClusterNodeCountInput() {
        return this._maxClusterNodeCount;
    }
    get minClusterNodeCount() {
        return this.getNumberAttribute('min_cluster_node_count');
    }
    set minClusterNodeCount(value) {
        this._minClusterNodeCount = value;
    }
    resetMinClusterNodeCount() {
        this._minClusterNodeCount = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get minClusterNodeCountInput() {
        return this._minClusterNodeCount;
    }
    get autoscalingPolicies() {
        return this._autoscalingPolicies;
    }
    putAutoscalingPolicies(value) {
        this._autoscalingPolicies.internalValue = value;
    }
    // Temporarily expose input value. Use with caution.
    get autoscalingPoliciesInput() {
        return this._autoscalingPolicies.internalValue;
    }
}
exports.VmwareengineClusterAutoscalingSettingsOutputReference = VmwareengineClusterAutoscalingSettingsOutputReference;
_f = JSII_RTTI_SYMBOL_1;
VmwareengineClusterAutoscalingSettingsOutputReference[_f] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterAutoscalingSettingsOutputReference", version: "14.12.0" };
function vmwareengineClusterNodeTypeConfigsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        custom_core_count: cdktf.numberToTerraform(struct.customCoreCount),
        node_count: cdktf.numberToTerraform(struct.nodeCount),
        node_type_id: cdktf.stringToTerraform(struct.nodeTypeId),
    };
}
exports.vmwareengineClusterNodeTypeConfigsToTerraform = vmwareengineClusterNodeTypeConfigsToTerraform;
function vmwareengineClusterNodeTypeConfigsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        custom_core_count: {
            value: cdktf.numberToHclTerraform(struct.customCoreCount),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        node_count: {
            value: cdktf.numberToHclTerraform(struct.nodeCount),
            isBlock: false,
            type: "simple",
            storageClassType: "number",
        },
        node_type_id: {
            value: cdktf.stringToHclTerraform(struct.nodeTypeId),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterNodeTypeConfigsToHclTerraform = vmwareengineClusterNodeTypeConfigsToHclTerraform;
class VmwareengineClusterNodeTypeConfigsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    * @param complexObjectIndex the index of this item in the list
    * @param complexObjectIsFromSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
    */
    constructor(terraformResource, terraformAttribute, complexObjectIndex, complexObjectIsFromSet) {
        super(terraformResource, terraformAttribute, complexObjectIsFromSet, complexObjectIndex);
        this.isEmptyObject = false;
    }
    get internalValue() {
        if (this.resolvableValue) {
            return this.resolvableValue;
        }
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._customCoreCount !== undefined) {
            hasAnyValues = true;
            internalValueResult.customCoreCount = this._customCoreCount;
        }
        if (this._nodeCount !== undefined) {
            hasAnyValues = true;
            internalValueResult.nodeCount = this._nodeCount;
        }
        if (this._nodeTypeId !== undefined) {
            hasAnyValues = true;
            internalValueResult.nodeTypeId = this._nodeTypeId;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this.resolvableValue = undefined;
            this._customCoreCount = undefined;
            this._nodeCount = undefined;
            this._nodeTypeId = undefined;
        }
        else if (cdktf.Tokenization.isResolvable(value)) {
            this.isEmptyObject = false;
            this.resolvableValue = value;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this.resolvableValue = undefined;
            this._customCoreCount = value.customCoreCount;
            this._nodeCount = value.nodeCount;
            this._nodeTypeId = value.nodeTypeId;
        }
    }
    get customCoreCount() {
        return this.getNumberAttribute('custom_core_count');
    }
    set customCoreCount(value) {
        this._customCoreCount = value;
    }
    resetCustomCoreCount() {
        this._customCoreCount = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get customCoreCountInput() {
        return this._customCoreCount;
    }
    get nodeCount() {
        return this.getNumberAttribute('node_count');
    }
    set nodeCount(value) {
        this._nodeCount = value;
    }
    // Temporarily expose input value. Use with caution.
    get nodeCountInput() {
        return this._nodeCount;
    }
    get nodeTypeId() {
        return this.getStringAttribute('node_type_id');
    }
    set nodeTypeId(value) {
        this._nodeTypeId = value;
    }
    // Temporarily expose input value. Use with caution.
    get nodeTypeIdInput() {
        return this._nodeTypeId;
    }
}
exports.VmwareengineClusterNodeTypeConfigsOutputReference = VmwareengineClusterNodeTypeConfigsOutputReference;
_g = JSII_RTTI_SYMBOL_1;
VmwareengineClusterNodeTypeConfigsOutputReference[_g] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterNodeTypeConfigsOutputReference", version: "14.12.0" };
class VmwareengineClusterNodeTypeConfigsList extends cdktf.ComplexList {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    * @param wrapsSet whether the list is wrapping a set (will add tolist() to be able to access an item via an index)
    */
    constructor(terraformResource, terraformAttribute, wrapsSet) {
        super(terraformResource, terraformAttribute, wrapsSet);
        this.terraformResource = terraformResource;
        this.terraformAttribute = terraformAttribute;
        this.wrapsSet = wrapsSet;
    }
    /**
    * @param index the index of the item to return
    */
    get(index) {
        return new VmwareengineClusterNodeTypeConfigsOutputReference(this.terraformResource, this.terraformAttribute, index, this.wrapsSet);
    }
}
exports.VmwareengineClusterNodeTypeConfigsList = VmwareengineClusterNodeTypeConfigsList;
_h = JSII_RTTI_SYMBOL_1;
VmwareengineClusterNodeTypeConfigsList[_h] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterNodeTypeConfigsList", version: "14.12.0" };
function vmwareengineClusterTimeoutsToTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    return {
        create: cdktf.stringToTerraform(struct.create),
        delete: cdktf.stringToTerraform(struct.delete),
        update: cdktf.stringToTerraform(struct.update),
    };
}
exports.vmwareengineClusterTimeoutsToTerraform = vmwareengineClusterTimeoutsToTerraform;
function vmwareengineClusterTimeoutsToHclTerraform(struct) {
    if (!cdktf.canInspect(struct) || cdktf.Tokenization.isResolvable(struct)) {
        return struct;
    }
    if (cdktf.isComplexElement(struct)) {
        throw new Error("A complex element was used as configuration, this is not supported: https://cdk.tf/complex-object-as-configuration");
    }
    const attrs = {
        create: {
            value: cdktf.stringToHclTerraform(struct.create),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
        delete: {
            value: cdktf.stringToHclTerraform(struct.delete),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
        update: {
            value: cdktf.stringToHclTerraform(struct.update),
            isBlock: false,
            type: "simple",
            storageClassType: "string",
        },
    };
    // remove undefined attributes
    return Object.fromEntries(Object.entries(attrs).filter(([_, value]) => value !== undefined && value.value !== undefined));
}
exports.vmwareengineClusterTimeoutsToHclTerraform = vmwareengineClusterTimeoutsToHclTerraform;
class VmwareengineClusterTimeoutsOutputReference extends cdktf.ComplexObject {
    /**
    * @param terraformResource The parent resource
    * @param terraformAttribute The attribute on the parent resource this class is referencing
    */
    constructor(terraformResource, terraformAttribute) {
        super(terraformResource, terraformAttribute, false);
        this.isEmptyObject = false;
    }
    get internalValue() {
        if (this.resolvableValue) {
            return this.resolvableValue;
        }
        let hasAnyValues = this.isEmptyObject;
        const internalValueResult = {};
        if (this._create !== undefined) {
            hasAnyValues = true;
            internalValueResult.create = this._create;
        }
        if (this._delete !== undefined) {
            hasAnyValues = true;
            internalValueResult.delete = this._delete;
        }
        if (this._update !== undefined) {
            hasAnyValues = true;
            internalValueResult.update = this._update;
        }
        return hasAnyValues ? internalValueResult : undefined;
    }
    set internalValue(value) {
        if (value === undefined) {
            this.isEmptyObject = false;
            this.resolvableValue = undefined;
            this._create = undefined;
            this._delete = undefined;
            this._update = undefined;
        }
        else if (cdktf.Tokenization.isResolvable(value)) {
            this.isEmptyObject = false;
            this.resolvableValue = value;
        }
        else {
            this.isEmptyObject = Object.keys(value).length === 0;
            this.resolvableValue = undefined;
            this._create = value.create;
            this._delete = value.delete;
            this._update = value.update;
        }
    }
    get create() {
        return this.getStringAttribute('create');
    }
    set create(value) {
        this._create = value;
    }
    resetCreate() {
        this._create = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get createInput() {
        return this._create;
    }
    get delete() {
        return this.getStringAttribute('delete');
    }
    set delete(value) {
        this._delete = value;
    }
    resetDelete() {
        this._delete = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get deleteInput() {
        return this._delete;
    }
    get update() {
        return this.getStringAttribute('update');
    }
    set update(value) {
        this._update = value;
    }
    resetUpdate() {
        this._update = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get updateInput() {
        return this._update;
    }
}
exports.VmwareengineClusterTimeoutsOutputReference = VmwareengineClusterTimeoutsOutputReference;
_j = JSII_RTTI_SYMBOL_1;
VmwareengineClusterTimeoutsOutputReference[_j] = { fqn: "@cdktf/provider-google.vmwareengineCluster.VmwareengineClusterTimeoutsOutputReference", version: "14.12.0" };
/**
* Represents a {@link https://registry.terraform.io/providers/hashicorp/google/6.13.0/docs/resources/vmwareengine_cluster google_vmwareengine_cluster}
*/
class VmwareengineCluster extends cdktf.TerraformResource {
    // ==============
    // STATIC Methods
    // ==============
    /**
    * Generates CDKTF code for importing a VmwareengineCluster resource upon running "cdktf plan <stack-name>"
    * @param scope The scope in which to define this construct
    * @param importToId The construct id used in the generated config for the VmwareengineCluster to import
    * @param importFromId The id of the existing VmwareengineCluster that should be imported. Refer to the {@link https://registry.terraform.io/providers/hashicorp/google/6.13.0/docs/resources/vmwareengine_cluster#import import section} in the documentation of this resource for the id to use
    * @param provider? Optional instance of the provider where the VmwareengineCluster to import is found
    */
    static generateConfigForImport(scope, importToId, importFromId, provider) {
        return new cdktf.ImportableResource(scope, importToId, { terraformResourceType: "google_vmwareengine_cluster", importId: importFromId, provider });
    }
    // ===========
    // INITIALIZER
    // ===========
    /**
    * Create a new {@link https://registry.terraform.io/providers/hashicorp/google/6.13.0/docs/resources/vmwareengine_cluster google_vmwareengine_cluster} Resource
    *
    * @param scope The scope in which to define this construct
    * @param id The scoped construct ID. Must be unique amongst siblings in the same scope
    * @param options VmwareengineClusterConfig
    */
    constructor(scope, id, config) {
        super(scope, id, {
            terraformResourceType: 'google_vmwareengine_cluster',
            terraformGeneratorMetadata: {
                providerName: 'google',
                providerVersion: '6.13.0',
                providerVersionConstraint: '~> 6.0'
            },
            provider: config.provider,
            dependsOn: config.dependsOn,
            count: config.count,
            lifecycle: config.lifecycle,
            provisioners: config.provisioners,
            connection: config.connection,
            forEach: config.forEach
        });
        // autoscaling_settings - computed: false, optional: true, required: false
        this._autoscalingSettings = new VmwareengineClusterAutoscalingSettingsOutputReference(this, "autoscaling_settings");
        // node_type_configs - computed: false, optional: true, required: false
        this._nodeTypeConfigs = new VmwareengineClusterNodeTypeConfigsList(this, "node_type_configs", true);
        // timeouts - computed: false, optional: true, required: false
        this._timeouts = new VmwareengineClusterTimeoutsOutputReference(this, "timeouts");
        this._id = config.id;
        this._name = config.name;
        this._parent = config.parent;
        this._autoscalingSettings.internalValue = config.autoscalingSettings;
        this._nodeTypeConfigs.internalValue = config.nodeTypeConfigs;
        this._timeouts.internalValue = config.timeouts;
    }
    get id() {
        return this.getStringAttribute('id');
    }
    set id(value) {
        this._id = value;
    }
    resetId() {
        this._id = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get idInput() {
        return this._id;
    }
    // management - computed: true, optional: false, required: false
    get management() {
        return this.getBooleanAttribute('management');
    }
    get name() {
        return this.getStringAttribute('name');
    }
    set name(value) {
        this._name = value;
    }
    // Temporarily expose input value. Use with caution.
    get nameInput() {
        return this._name;
    }
    get parent() {
        return this.getStringAttribute('parent');
    }
    set parent(value) {
        this._parent = value;
    }
    // Temporarily expose input value. Use with caution.
    get parentInput() {
        return this._parent;
    }
    // state - computed: true, optional: false, required: false
    get state() {
        return this.getStringAttribute('state');
    }
    // uid - computed: true, optional: false, required: false
    get uid() {
        return this.getStringAttribute('uid');
    }
    get autoscalingSettings() {
        return this._autoscalingSettings;
    }
    putAutoscalingSettings(value) {
        this._autoscalingSettings.internalValue = value;
    }
    resetAutoscalingSettings() {
        this._autoscalingSettings.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get autoscalingSettingsInput() {
        return this._autoscalingSettings.internalValue;
    }
    get nodeTypeConfigs() {
        return this._nodeTypeConfigs;
    }
    putNodeTypeConfigs(value) {
        this._nodeTypeConfigs.internalValue = value;
    }
    resetNodeTypeConfigs() {
        this._nodeTypeConfigs.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get nodeTypeConfigsInput() {
        return this._nodeTypeConfigs.internalValue;
    }
    get timeouts() {
        return this._timeouts;
    }
    putTimeouts(value) {
        this._timeouts.internalValue = value;
    }
    resetTimeouts() {
        this._timeouts.internalValue = undefined;
    }
    // Temporarily expose input value. Use with caution.
    get timeoutsInput() {
        return this._timeouts.internalValue;
    }
    // =========
    // SYNTHESIS
    // =========
    synthesizeAttributes() {
        return {
            id: cdktf.stringToTerraform(this._id),
            name: cdktf.stringToTerraform(this._name),
            parent: cdktf.stringToTerraform(this._parent),
            autoscaling_settings: vmwareengineClusterAutoscalingSettingsToTe