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From financial-analysis
Creates a reusable SKILL.md from a user-provided PowerPoint template, extracting layout details and placeholder positions for later presentation generation.
How this skill is triggered — by the user, by Claude, or both
Slash command
/financial-analysis:ppt-template-creatorThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
**This skill creates SKILLS, not presentations.** Use this when a user wants to turn their PowerPoint template into a reusable skill that can generate presentations later. If the user just wants to create a presentation, use the `pptx` skill instead.
This skill creates SKILLS, not presentations. Use this when a user wants to turn their PowerPoint template into a reusable skill that can generate presentations later. If the user just wants to create a presentation, use the pptx skill instead.
The generated skill includes:
assets/template.pptx - the template fileSKILL.md - complete instructions (no reference to this meta skill needed)For general skill-building best practices, refer to the skill-creator skill. This skill focuses on PPT-specific patterns.
skill-creator skill to set up the skill structureassets/template.pptxskill-creator skill to package into a .skill fileCRITICAL: Extract precise placeholder positions - this determines content area boundaries.
from pptx import Presentation
prs = Presentation(template_path)
print(f"Dimensions: {prs.slide_width/914400:.2f}\" x {prs.slide_height/914400:.2f}\"")
print(f"Layouts: {len(prs.slide_layouts)}")
for idx, layout in enumerate(prs.slide_layouts):
print(f"\n[{idx}] {layout.name}:")
for ph in layout.placeholders:
try:
ph_idx = ph.placeholder_format.idx
ph_type = ph.placeholder_format.type
# IMPORTANT: Extract exact positions in inches
left = ph.left / 914400
top = ph.top / 914400
width = ph.width / 914400
height = ph.height / 914400
print(f" idx={ph_idx}, type={ph_type}")
print(f" x={left:.2f}\", y={top:.2f}\", w={width:.2f}\", h={height:.2f}\"")
except:
pass
Key measurements to document:
CRITICAL: The content area does NOT always start immediately after the subtitle placeholder. Many templates have a visual border, line, or reserved space between the subtitle and content area.
Best approach: Look at Layout 2 or similar "content" layouts that have an OBJECT placeholder - this placeholder's y position indicates where content should actually start.
# Find the OBJECT placeholder to determine true content start
for idx, layout in enumerate(prs.slide_layouts):
for ph in layout.placeholders:
try:
if ph.placeholder_format.type == 7: # OBJECT type
top = ph.top / 914400
print(f"Layout [{idx}] {layout.name}: OBJECT starts at y={top:.2f}\"")
# This y value is where your content should start!
except:
pass
Example: A template might have:
Use the OBJECT placeholder's y position as your content start, not the subtitle's end position.
The generated skill should have this structure:
[company]-ppt-template/
├── SKILL.md
└── assets/
└── template.pptx
The generated SKILL.md must be self-contained with all instructions embedded. Use this template, filling in the bracketed values from your analysis:
---
name: [company]-ppt-template
description: [Company] PowerPoint template for creating presentations. Use when creating [Company]-branded pitch decks, board materials, or client presentations.
---
# [Company] PPT Template
Template: `assets/template.pptx` ([WIDTH]" x [HEIGHT]", [N] layouts)
## Creating Presentations
```python
from pptx import Presentation
prs = Presentation("path/to/skill/assets/template.pptx")
# DELETE all existing slides first
while len(prs.slides) > 0:
rId = prs.slides._sldIdLst[0].rId
prs.part.drop_rel(rId)
del prs.slides._sldIdLst[0]
# Add slides from layouts
slide = prs.slides.add_slide(prs.slide_layouts[LAYOUT_IDX])
```
## Key Layouts
| Index | Name | Use For |
|-------|------|---------|
| [0] | [Layout Name] | [Cover/title slide] |
| [N] | [Layout Name] | [Content with bullets] |
| [N] | [Layout Name] | [Two-column layout] |
## Placeholder Mapping
**CRITICAL: Include exact positions (x, y coordinates) for each placeholder.**
### Layout [N]: [Name]
| idx | Type | Position | Use |
|-----|------|----------|-----|
| [idx] | TITLE (1) | y=[Y]" | Slide title |
| [idx] | BODY (2) | y=[Y]" | Subtitle/description |
| [idx] | BODY (2) | y=[Y]" | Footer |
| [idx] | BODY (2) | y=[Y]" | Source/notes |
### Content Area Boundaries
**Document the safe content area for custom shapes/tables/charts:**
```
Content Area (for Layout [N]):
- Left margin: [X]" (content starts here)
- Top: [Y]" (below subtitle placeholder)
- Width: [W]"
- Height: [H]" (ends before footer)
For 4-quadrant layouts:
- Left column: x=[X]", width=[W]"
- Right column: x=[X]", width=[W]"
- Top row: y=[Y]", height=[H]"
- Bottom row: y=[Y]", height=[H]"
```
**Why this matters:** Custom content (textboxes, tables, charts) must stay within these boundaries to avoid overlapping with template placeholders like titles, footers, and source lines.
## Filling Content
**Do NOT add manual bullet characters** - slide master handles formatting.
```python
# Fill title
for shape in slide.shapes:
if hasattr(shape, 'placeholder_format'):
if shape.placeholder_format.type == 1: # TITLE
shape.text = "Slide Title"
# Fill content with hierarchy (level 0 = header, level 1 = bullet)
for shape in slide.shapes:
if hasattr(shape, 'placeholder_format'):
idx = shape.placeholder_format.idx
if idx == [CONTENT_IDX]:
tf = shape.text_frame
for para in tf.paragraphs:
para.clear()
content = [
("Section Header", 0),
("First bullet point", 1),
("Second bullet point", 1),
]
tf.paragraphs[0].text = content[0][0]
tf.paragraphs[0].level = content[0][1]
for text, level in content[1:]:
p = tf.add_paragraph()
p.text = text
p.level = level
```
## Example: Cover Slide
```python
slide = prs.slides.add_slide(prs.slide_layouts[[COVER_IDX]])
for shape in slide.shapes:
if hasattr(shape, 'placeholder_format'):
idx = shape.placeholder_format.idx
if idx == [TITLE_IDX]:
shape.text = "Company Name"
elif idx == [SUBTITLE_IDX]:
shape.text = "Presentation Title | Date"
```
## Example: Content Slide
```python
slide = prs.slides.add_slide(prs.slide_layouts[[CONTENT_IDX]])
for shape in slide.shapes:
if hasattr(shape, 'placeholder_format'):
ph_type = shape.placeholder_format.type
idx = shape.placeholder_format.idx
if ph_type == 1:
shape.text = "Executive Summary"
elif idx == [BODY_IDX]:
tf = shape.text_frame
for para in tf.paragraphs:
para.clear()
content = [
("Key Findings", 0),
("Revenue grew 40% YoY to $50M", 1),
("Expanded to 3 new markets", 1),
("Recommendation", 0),
("Proceed with strategic initiative", 1),
]
tf.paragraphs[0].text = content[0][0]
tf.paragraphs[0].level = content[0][1]
for text, level in content[1:]:
p = tf.add_paragraph()
p.text = text
p.level = level
```
Generate a sample presentation to validate the skill works. Save it alongside the skill for reference.
paragraph.level for hierarchynpx claudepluginhub duzhenyang111/new_quant_codex --plugin financial-analysisGuides creation of effective Claude Code skills with principles on conciseness, degrees of freedom, anatomy, and bundling resources for workflows/tools.
Guides creation of effective skills that extend Claude's capabilities with specialized knowledge, workflows, and tool integrations. Includes principles for concise context and appropriate levels of freedom.
Guides creation, editing, and verification of skills for AI coding agents using test-driven development with subagent scenarios. Use when authoring or debugging skills.