PROMPT DETAIL

Animated explainer — data flowing through nodes

Video explainer happyhorse-text-to-video

Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing.

happyhorse-text-to-video /api/v1/happyhorse/text_to_video

RUN DETAILS

Model: happyhorse-text-to-video
Provider: Alibaba
Service: Happyhorse
Endpoint: Text To Video

1. claude mcp add runapi -s user -- npx -y @runapi.ai/mcp
2. Restart Claude Code
3. Paste this prompt: Generate a video: "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."

1. codex plugin install runapi-mcp@agents
2. Restart Codex
3. Paste this prompt: Generate a video: "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."

1. npx @runapi.ai/mcp init cursor
2. Restart Cursor
3. Paste this prompt: Generate a video: "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."

1. npx @runapi.ai/mcp init windsurf
2. Restart Windsurf
3. Paste this prompt: Generate a video: "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."

curl -X POST https://runapi.ai/api/v1/happyhorse/text_to_video \
  -H "Authorization: Bearer $RUNAPI_KEY" \
  -H "Content-Type: application/json" \
  --data-binary @- <<'JSON'
{
  "model": "happyhorse-text-to-video",
  "prompt": "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."
}
JSON

import { HappyhorseClient } from "@runapi.ai/happyhorse";

const client = new HappyhorseClient({
  apiKey: process.env.RUNAPI_API_KEY,
});

const result = await client.textToVideo.run({
  "model": "happyhorse-text-to-video",
  "prompt": "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."
});
console.log(result.id);

require "runapi/happyhorse"

client = RunApi::Happyhorse::Client.new
result = client.text_to_video.run(
  model: "happyhorse-text-to-video",
  prompt: "Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing."
)
puts result.id

package main

import (
  "context"
  "fmt"
  "log"
  "net/http"
  "os"
  "strings"
)

func main() {
  body := strings.NewReader("{\"model\":\"happyhorse-text-to-video\",\"prompt\":\"Clean motion graphics animation showing data packets as small glowing orbs traveling through a network of interconnected nodes. The nodes are arranged in a tree structure, branching outward from a central server node on the left to multiple endpoint nodes on the right. Each data packet leaves a fading light trail as it travels along the connection lines. When packets reach nodes, the node pulses briefly. Color scheme uses white lines and nodes on a dark blue background, with data packets in bright cyan. The animation flows continuously from left to right, showing the concept of API request routing.\"}")
  req, err := http.NewRequestWithContext(context.Background(), http.MethodPost, "https://runapi.ai/api/v1/happyhorse/text_to_video", body)
  if err != nil {
    log.Fatal(err)
  }

  req.Header.Set("Authorization", "Bearer "+os.Getenv("RUNAPI_API_KEY"))
  req.Header.Set("Content-Type", "application/json")

  resp, err := http.DefaultClient.Do(req)
  if err != nil {
    log.Fatal(err)
  }
  defer resp.Body.Close()

  fmt.Println(resp.Status)
}

happyhorse-text-to-video /api/v1/happyhorse/text_to_video Get API Key

FAQ

Using this happyhorse-text-to-video prompt

How do I copy this prompt safely?

Use the copy button beside the full prompt block. It copies only the prompt text, not surrounding page labels, so you can paste it into an agent instruction, a JSON request body, or your own prompt library.

Why does the detail page show parameters?

Some prompts were collected with saved generation settings such as aspect ratio, duration, or voice controls. When parameters exist, the page lists them separately so you can reuse the prompt text and the structured settings together.

Which endpoint should I call?

Use the endpoint path shown in the API code block. The path is generated from the prompt's RunAPI service and endpoint name, then rendered as the public API URL used by curl and SDK examples.

Can I use this prompt in an agent instead of code?

Yes. Pick Claude Code, Codex, Cursor, or Windsurf in the tab switcher, install the RunAPI MCP Server, and paste the generated instruction. The instruction includes the full prompt text.