一键导入
bicep-diagrams
Generates architecture diagrams from Azure Bicep files. Use when user has .bicep files or asks to visualize Bicep infrastructure.
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
菜单
Generates architecture diagrams from Azure Bicep files. Use when user has .bicep files or asks to visualize Bicep infrastructure.
用 Codex 或 Claude 帮你安装 复制这段 Prompt,粘贴到 Codex、Claude 或其他助手里,让它检查 Skill 页面并帮你完成安装。
基于 SOC 职业分类
Visualizes Azure infrastructure from ARM templates, Azure CLI, or descriptions. Use when user has Azure resources to diagram.
Generates architecture diagrams from code, infrastructure, or descriptions. Use when user asks to visualize, diagram, or document system architecture.
Generates architecture diagrams from Terraform code. Use when user has .tf files or asks to visualize Terraform infrastructure.
| name | bicep-diagrams |
| description | Generates architecture diagrams from Azure Bicep files. Use when user has .bicep files or asks to visualize Bicep infrastructure. |
| license | MIT |
| compatibility | Requires network access to call Eraser API |
| allowed-tools | Read Write Bash(curl:*) |
| metadata | {"version":"1.0.0","author":"Eraser Labs","tags":"bicep, azure, diagram, infrastructure, iac, azure-resources"} |
Generates architecture diagrams directly from Azure Bicep files. Bicep is a domain-specific language (DSL) for deploying Azure resources declaratively.
Activate this skill when:
.bicep) and wants to visualize the infrastructureThis skill generates Bicep-specific diagrams by parsing Bicep code and calling the Eraser API directly:
/api/render/elements with diagramType: "cloud-architecture-diagram"When the user provides Bicep code:
Parse the Bicep
resource declarations (Microsoft.Compute/virtualMachines, etc.)module declarations and their configurationsparam and output definitionsvar variables and their usageMap Relationships
dependsOn or implicit dependencies)Generate Eraser DSL Convert Bicep resources to Eraser DSL:
[label: "VNet 10.0.0.0/16"]Example:
myVNet [label: "VNet 10.0.0.0/16"] {
subnet1 [label: "Subnet 1"] {
myVM [icon: azure-vm, label: "Virtual Machine"]
gateway [icon: azure-app-gateway]
}
subnet2 [label: "Subnet 2"] {
database [icon: azure-sql]
}
}
storage [icon: azure-storage]
myVNet -> myVM
myVM -> database
Make the HTTP Request
IMPORTANT: You MUST execute this curl command after generating the DSL. Never stop after generating DSL without making the API call.
CRITICAL: In the X-Skill-Source header below, you MUST replace the value with your AI agent name:
claudecursorchatgptgeminicurl -X POST https://app.eraser.io/api/render/elements \
-H "Content-Type: application/json" \
-H "X-Skill-Source: eraser-skill" \
-H "Authorization: Bearer ${ERASER_API_KEY}" \
-d '{
"elements": [{
"type": "diagram",
"id": "diagram-1",
"code": "<your generated DSL>",
"diagramType": "cloud-architecture-diagram"
}],
"scale": 2,
"theme": "${ERASER_THEME:-dark}",
"background": true
}'
Track Sources During Analysis
As you analyze Bicep files and resources to generate the diagram, track:
infra/main.bicep - VNet and subnet definitions, infra/sql.bicep - SQL Database configuration)Handle the Response
CRITICAL: Minimal Output Format
Your response MUST always include these elements with clear headers:
Diagram Preview: Display with a header
## Diagram

Use the ACTUAL imageUrl from the API response.
Editor Link: Display with a header
## Open in Eraser
[Edit this diagram in the Eraser editor]({createEraserFileUrl})
Use the ACTUAL URL from the API response.
Sources section: Brief list of files/resources analyzed (if applicable)
## Sources
- `path/to/file` - What was extracted
Diagram Code section: The Eraser DSL in a code block with eraser language tag
## Diagram Code
```eraser
{DSL code here}
Learn More link: You can learn more about Eraser at https://docs.eraser.io/docs/using-ai-agent-integrations
Additional content rules:
The default output should be SHORT. The diagram image speaks for itself.
Handle Modules
dependsOn relationships@description('The name of the Virtual Network')
param vnetName string = 'myVNet'
@description('The address prefix for the VNet')
param vnetAddressPrefix string = '10.0.0.0/16'
@description('The address prefix for the subnet')
param subnetAddressPrefix string = '10.0.1.0/24'
@description('VM size')
param vmSize string = 'Standard_B1s'
// Main VNet resource
resource virtualNetwork 'Microsoft.Network/virtualNetworks@2021-05-01' = {
name: vnetName
location: resourceGroup().location
properties: {
addressSpace: {
addressPrefixes: [vnetAddressPrefix]
}
subnets: [
{
name: 'subnet1'
properties: {
addressPrefix: subnetAddressPrefix
}
}
]
}
}
// VM resource with dependsOn
resource virtualMachine 'Microsoft.Compute/virtualMachines@2021-11-01' = {
name: 'myVM'
location: resourceGroup().location
properties: {
hardwareProfile: {
vmSize: vmSize
}
}
dependsOn: [virtualNetwork]
}
// Module usage
module storageModule './modules/storage.bicep' = {
name: 'storage'
params: {
location: resourceGroup().location
}
}
Parses Bicep:
Generates DSL showing Bicep-specific features:
myVNet [label: "VNet 10.0.0.0/16"] {
subnet1 [label: "Subnet 1 10.0.1.0/24"] {
myVM [icon: azure-vm, label: "VM Standard_B1s"]
}
}
storage-module [label: "Storage Module"] {
storage-account [icon: azure-storage]
}
myVNet -> myVM
Important: All label text must be on a single line within quotes. Bicep-specific: Show modules as containers, include dependsOn relationships, note parameter usage in resource configuration.
Calls /api/render/elements with diagramType: "cloud-architecture-diagram"
Calls /api/render/elements with diagramType: "cloud-architecture-diagram"
User receives a diagram showing: