| name | ai-provider-claude-vision |
| description | Image understanding and document analysis with Claude's multimodal capabilities -- image input formats, PDF processing, multi-image patterns, structured extraction, and token cost estimation |
Claude Vision Patterns
Quick Guide: Use type: "image" content blocks for images (base64, URL, or file_id) and type: "document" content blocks for PDFs. Supported image formats: JPEG, PNG, GIF, WebP. Images before text in the content array improves results. Token cost formula: tokens = (width * height) / 750. Images are auto-resized if the long edge exceeds 1568px or exceeds ~1600 tokens. PDFs use type: "document" with media_type: "application/pdf". No OCR library needed -- Claude reads text directly from images and PDFs.
<critical_requirements>
CRITICAL: Before Using This Skill
All code must follow project conventions in CLAUDE.md (kebab-case, named exports, import ordering, import type, named constants)
(You MUST use type: "image" for images and type: "document" for PDFs -- they are different content block types)
(You MUST place images and documents BEFORE text in the content array -- Claude performs better with visual content first)
(You MUST always provide max_tokens in every request -- it is required and has no default)
(You MUST iterate over response.content blocks -- never assume a single text block in the response)
(You MUST use named constants for max_tokens, token budgets, and pixel limits -- no magic numbers)
</critical_requirements>
Auto-detection: Claude vision, image analysis, image input, base64 image, URL image, type image, type document, media_type image/jpeg, media_type image/png, image/webp, image/gif, application/pdf, PDF processing, document extraction, multimodal, multi-image, image comparison, chart analysis, screenshot analysis, image understanding, visual content, vision API
When to use:
- Sending images to Claude for analysis, description, or data extraction
- Processing PDF documents for text extraction, chart analysis, or summarization
- Comparing multiple images in a single request
- Extracting structured data from screenshots, receipts, charts, or forms
- Building document processing pipelines with Claude
- Estimating token costs for image-heavy workloads
Key patterns covered:
- Image input via base64, URL, and Files API
- PDF document input and processing
- Multi-image requests and comparison patterns
- Image + text prompting best practices
- Token cost estimation and image sizing
- Structured data extraction from visual content
- Multi-turn vision conversations
- Prompt caching with images and PDFs
When NOT to use:
- General Claude API usage without images or documents -- use the general Anthropic SDK patterns instead
- Image generation or editing -- Claude is understanding-only, it cannot create or modify images
- Identifying specific people in images -- Claude refuses to name people (Anthropic policy)
- Medical diagnostic imaging (CTs, MRIs) -- not designed for clinical diagnosis
Examples Index
- Core: Image & PDF Input -- Base64, URL, file_id, PDF input, multi-image, token estimation
- Extraction & Prompting -- Structured extraction, comparison, prompting best practices, caching
- Quick API Reference -- Content block types, supported formats, size limits, token formula
Philosophy
Claude's vision capabilities treat images and documents as first-class content blocks alongside text. There is no separate "vision API" -- you add image or document blocks to the same Messages API you already use for text.
Core principles:
- Images are content blocks, not attachments -- Images and PDFs are content blocks in the
messages array, interleaved with text. They are not uploaded separately or referenced by URL-only.
- Image-first ordering -- Place images before text in the content array. This mirrors how
documents first, query last improves text prompts. Claude processes visual content better when it sees the image before the question.
- No OCR needed -- Claude reads text directly from images and PDFs. You do not need to pre-extract text with an OCR library. For PDFs, Claude processes both the extracted text and a rendered image of each page.
- Token costs scale with pixels -- Image tokens are proportional to resolution:
tokens = (width * height) / 750. Downsizing images before sending saves tokens without losing meaningful detail for most use cases.
- PDFs are dual-processed -- Each PDF page is converted to an image AND has its text extracted. Claude sees both, giving it access to visual layout and textual content.
When to use vision:
- Analyzing screenshots, photos, charts, diagrams, or infographics
- Extracting data from forms, receipts, invoices, or tables
- Processing PDF documents for summarization, extraction, or analysis
- Comparing multiple images (before/after, A/B testing, design review)
- Understanding visual context that text alone cannot capture
When NOT to use:
- Pure text tasks with no visual component -- vision adds unnecessary token cost
- Tasks requiring pixel-perfect spatial precision -- Claude's spatial reasoning is approximate
- Identifying specific people -- Claude refuses to name individuals (Anthropic policy)
- Replacing professional medical imaging analysis (CTs, MRIs, X-rays)
Core Patterns
Pattern 1: Base64 Image Input
Read a local file, encode to base64, send as type: "image" content block. Image block before text block.
content: [
{
type: "image",
source: { type: "base64", media_type: "image/png", data: imageData },
},
{ type: "text", text: "Describe what you see in this image." },
];
Why good: Image before text improves results, explicit media_type, structured content blocks
content: "What's in this image? " + imageData;
Why bad: Passing base64 as text string instead of image content block, Claude cannot interpret raw base64 text as an image
See: examples/core.md for full runnable examples with base64, URL, and Files API
Pattern 2: URL vs Base64 vs Files API
Three source types for images. Choose based on where your image lives.
source: { type: "url", url: "https://example.com/chart.png" }
source: { type: "base64", media_type: "image/jpeg", data: base64String }
source: { type: "file", file_id: "file_abc123" }
When to use: URL for hosted images, base64 for local files, Files API for multi-turn or repeated use
See: examples/core.md for full examples of each source type
Pattern 3: PDF Document Input
PDFs use type: "document" -- different from type: "image". This is the most common mistake.
{ type: "document", source: { type: "base64", media_type: "application/pdf", data: pdfData } }
{ type: "image", source: { type: "base64", media_type: "application/pdf", data: pdfData } }
Why good: type: "document" enables dual processing (text extraction + page rendering)
Why bad: Using type: "image" for PDFs causes API errors. PDFs require type: "document".
See: examples/core.md for base64 and URL PDF examples, examples/extraction.md for PDF caching
Pattern 4: Multiple Images with Labels
Label images with text blocks so Claude can reference them clearly.
content: [
{ type: "text", text: "Image 1:" },
{
type: "image",
source: { type: "base64", media_type: "image/jpeg", data: image1 },
},
{ type: "text", text: "Image 2:" },
{
type: "image",
source: { type: "base64", media_type: "image/jpeg", data: image2 },
},
{
type: "text",
text: "Compare these two images and describe the differences.",
},
];
Why good: Labels let Claude reference specific images unambiguously
Why bad (without labels): Claude may confuse which image is which when no labels are provided
See: examples/core.md for full multi-image example
Pattern 5: Token Cost Estimation
Token formula: tokens = (width * height) / 750. Auto-resize triggers at 1568px long edge or ~1.15 megapixels.
const TOKENS_PER_PIXEL_DIVISOR = 750;
const MAX_LONG_EDGE_PX = 1568;
const MAX_MEGAPIXELS = 1.15;
function estimateImageTokens(width: number, height: number): number {
let w = width,
h = height;
const longEdge = Math.max(w, h);
const mp = (w * h) / 1_000_000;
if (longEdge > MAX_LONG_EDGE_PX || mp > MAX_MEGAPIXELS) {
const scale = Math.min(
MAX_LONG_EDGE_PX / longEdge,
Math.sqrt(MAX_MEGAPIXELS / mp),
);
w = Math.round(width * scale);
h = Math.round(height * scale);
}
return Math.ceil((w * h) / TOKENS_PER_PIXEL_DIVISOR);
}
Why good: Named constants, accounts for auto-resize, documents the formula
See: examples/core.md for full estimateImageTokens() utility and countTokens() usage, reference.md for the complete size/token/cost table
Pattern 6: Structured Data Extraction
Combine vision with messages.parse() and Zod schemas for typed extraction.
import { zodOutputFormat } from "@anthropic-ai/sdk/helpers/zod";
import { z } from "zod";
const ReceiptData = z.object({
merchant: z.string(),
date: z.string(),
items: z.array(
z.object({ name: z.string(), quantity: z.number(), price: z.number() }),
),
total: z.number(),
currency: z.string(),
});
const response = await client.messages.parse({
model: "claude-sonnet-4-6",
max_tokens: MAX_TOKENS,
messages: [
{
role: "user",
content: [
{
type: "image",
source: {
type: "base64",
media_type: "image/jpeg",
data: receiptImage,
},
},
{
type: "text",
text: "Extract all receipt information from this image.",
},
],
},
],
output_config: { format: zodOutputFormat(ReceiptData) },
});
const receipt = response.parsed_output;
Why good: Zod schema for type-safe extraction, messages.parse() for auto-validation, image before text
See: examples/extraction.md for receipt, chart, form, comparison, and multi-document extraction patterns
Performance Optimization
Image Sizing Strategy
Image resolution vs token cost:
200x200 -> ~54 tokens ($0.00016/image at Sonnet 4.6 pricing)
1000x1000 -> ~1334 tokens ($0.004/image)
1092x1092 -> ~1590 tokens ($0.0048/image) -- max 1:1 without auto-resize
4000x3000 -> ~1590 tokens (auto-resized to fit 1568px long edge)
- Pre-resize images to no more than 1568px on the long edge and 1.15 megapixels to avoid auto-resize latency
- Small images under 200px on any edge may degrade output quality
- Images over 8000x8000px are rejected outright
- 20+ images in one request limits each image to 2000x2000px max
Cost Reduction Techniques
- Resize before sending -- A 4000x3000 image is auto-resized to the same tokens as 1092x1092, but adds latency. Pre-resize to save time.
- Use URL sources when images are already hosted -- avoids encoding overhead and reduces request payload size
- Use the Files API for images used across multiple requests -- upload once, reference by
file_id
- Cache PDFs with
cache_control: { type: "ephemeral" } when asking multiple questions about the same document
- Use token counting (
client.messages.countTokens()) before expensive requests to estimate costs
PDF Token Costs
- Text extraction: ~1,500-3,000 tokens per page depending on density
- Image rendering: Each page also incurs image token costs (same formula)
- Total per page: text tokens + image tokens (dual processing)
<decision_framework>
Decision Framework
Image Source Type
Where is your image?
+-- Local file -> Base64 encode with readFileSync().toString("base64")
+-- Public URL -> Use type: "url" source (simplest, smallest payload)
+-- Already uploaded -> Use type: "file" source with file_id (Files API, beta)
+-- Multiple requests -> Upload once via Files API, reuse file_id
Image vs Document Block
What type of file?
+-- JPEG, PNG, GIF, WebP -> type: "image"
+-- PDF -> type: "document" with media_type: "application/pdf"
+-- Other formats -> Convert to a supported format first
Token Budget for max_tokens
What kind of analysis?
+-- Brief description -> 256-512 max_tokens
+-- Detailed analysis -> 1024-2048 max_tokens
+-- Document summarization -> 2048-4096 max_tokens
+-- Structured extraction -> 1024 max_tokens (JSON output is compact)
</decision_framework>
<red_flags>
RED FLAGS
High Priority Issues:
- Using
type: "image" for PDFs -- PDFs require type: "document" with media_type: "application/pdf"
- Passing base64 data as a text string instead of an image content block -- Claude cannot interpret raw base64 text
- Not providing
max_tokens -- required on every request, no default
- Images larger than 8000x8000px -- rejected by the API
- API file size limit is 5MB per image (10MB on claude.ai)
Medium Priority Issues:
- Placing text before images in the content array -- Claude performs better with images first
- Not labeling multiple images -- Claude may confuse which image is which without "Image 1:", "Image 2:" labels
- Sending full-resolution images when a smaller version would suffice -- wastes tokens and adds latency from auto-resizing
- Using base64 for publicly available images -- URL source is simpler and reduces payload
- Not using
cache_control when asking multiple questions about the same PDF -- each request re-processes the full document
Common Mistakes:
- Expecting Claude to generate or edit images -- it is understanding-only
- Using vision for tasks requiring precise spatial reasoning (exact pixel coordinates, analog clock reading) -- Claude's spatial abilities are approximate
- Relying on Claude to identify specific people -- it refuses to name individuals per Anthropic policy
- Assuming exact object counts -- Claude gives approximate counts, especially for many small objects
- Forgetting that PDF pages are dual-processed (text + image) -- token costs are higher than text-only
Gotchas & Edge Cases:
- Images under 200px on any edge may produce lower quality analysis
- When sending 20+ images in a single request, each image is limited to 2000x2000px max
- API supports up to 600 images per request (100 for 200k context window models), but request size limits (32MB) are often reached first
- Claude does not read image EXIF metadata -- orientation, camera info, GPS data are not accessible
- PDFs with passwords or encryption are not supported -- only standard PDFs
- The Files API for images and documents is currently in beta (
betas: ["files-api-2025-04-14"])
- Multi-turn vision conversations do not require re-sending the image -- it persists in conversation history
- For PDFs, dense pages with complex tables or heavy graphics can fill the context window before reaching the 600-page limit
</red_flags>
<critical_reminders>
CRITICAL REMINDERS
All code must follow project conventions in CLAUDE.md (kebab-case, named exports, import ordering, import type, named constants)
(You MUST use type: "image" for images and type: "document" for PDFs -- they are different content block types)
(You MUST place images and documents BEFORE text in the content array -- Claude performs better with visual content first)
(You MUST always provide max_tokens in every request -- it is required and has no default)
(You MUST iterate over response.content blocks -- never assume a single text block in the response)
(You MUST use named constants for max_tokens, token budgets, and pixel limits -- no magic numbers)
Failure to follow these rules will produce API errors, degraded vision quality, unexpected token costs, or runtime crashes from untyped content blocks.
</critical_reminders>