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1
.github/workflows/release.yml
vendored
1
.github/workflows/release.yml
vendored
@@ -18,6 +18,7 @@ jobs:
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uses: actions/checkout@v4
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with:
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fetch-depth: 0
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token: ${{ secrets.GITHUB_TOKEN }}
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- name: Get latest tag
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id: get_tag
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@@ -207,7 +207,7 @@ At this stage, your project folder contents should resemble the following:
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│ ├── setup-plan.sh
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│ └── update-claude-md.sh
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├── specs
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│ └── 002-create-taskify
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│ └── 001-create-taskify
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│ └── spec.md
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└── templates
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├── CLAUDE-template.md
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@@ -260,7 +260,7 @@ The output of this step will include a number of implementation detail documents
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│ ├── setup-plan.sh
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│ └── update-claude-md.sh
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├── specs
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│ └── 002-create-taskify
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│ └── 001-create-taskify
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│ ├── contracts
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│ │ ├── api-spec.json
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│ │ └── signalr-spec.md
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@@ -348,7 +348,7 @@ Once the implementation step is done, ask Claude Code to try to run the applicat
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If you're having issues with Git authentication on Linux, you can install Git Credential Manager:
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```bash
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#!/bin/bash
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#!/usr/bin/env bash
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set -e
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echo "Downloading Git Credential Manager v2.6.1..."
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wget https://github.com/git-ecosystem/git-credential-manager/releases/download/v2.6.1/gcm-linux_amd64.2.6.1.deb
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2
scripts/check-task-prerequisites.sh
Normal file → Executable file
2
scripts/check-task-prerequisites.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Check that implementation plan exists and find optional design documents
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# Usage: ./check-task-prerequisites.sh [--json]
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2
scripts/common.sh
Normal file → Executable file
2
scripts/common.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Common functions and variables for all scripts
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# Get repository root
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2
scripts/create-new-feature.sh
Normal file → Executable file
2
scripts/create-new-feature.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Create a new feature with branch, directory structure, and template
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# Usage: ./create-new-feature.sh "feature description"
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# ./create-new-feature.sh --json "feature description"
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2
scripts/get-feature-paths.sh
Normal file → Executable file
2
scripts/get-feature-paths.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Get paths for current feature branch without creating anything
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# Used by commands that need to find existing feature files
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2
scripts/setup-plan.sh
Normal file → Executable file
2
scripts/setup-plan.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Setup implementation plan structure for current branch
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# Returns paths needed for implementation plan generation
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# Usage: ./setup-plan.sh [--json]
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2
scripts/update-agent-context.sh
Normal file → Executable file
2
scripts/update-agent-context.sh
Normal file → Executable file
@@ -1,4 +1,4 @@
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#!/bin/bash
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#!/usr/bin/env bash
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# Incrementally update agent context files based on new feature plan
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# Supports: CLAUDE.md, GEMINI.md, and .github/copilot-instructions.md
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# O(1) operation - only reads current context file and new plan.md
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@@ -34,13 +34,13 @@ The feedback loop extends beyond initial development. Production metrics and inc
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Three trends make SDD not just possible but necessary:
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First, AI capabilities have reached a threshold where natural language specifications can reliably generate working code. This isn't about replacing developers—it's about amplifying their effectiveness by automating the mechanical translation from specification to implementation. It can amplify exploration and creativity, it can support "start-over" easily, it supports addition substraction and critical thinking.
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First, AI capabilities have reached a threshold where natural language specifications can reliably generate working code. This isn't about replacing developers—it's about amplifying their effectiveness by automating the mechanical translation from specification to implementation. It can amplify exploration and creativity, it can support "start-over" easily, it supports addition subtraction and critical thinking.
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Second, software complexity continues to grow exponentially. Modern systems integrate dozens of services, frameworks, and dependencies. Keeping all these pieces aligned with original intent through manual processes becomes increasingly difficult. SDD provides systematic alignment through specification-driven generation. Frameworks may eviolve to provide AI-first support, not human-first support, or architect around reusable components.
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Second, software complexity continues to grow exponentially. Modern systems integrate dozens of services, frameworks, and dependencies. Keeping all these pieces aligned with original intent through manual processes becomes increasingly difficult. SDD provides systematic alignment through specification-driven generation. Frameworks may evolve to provide AI-first support, not human-first support, or architect around reusable components.
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Third, the pace of change accelerates. Requirements change far more rapidly today than ever before. Pivoting is no longer exceptional—it's expected. Modern product development demands rapid iteration based on user feedback, market conditions, and competitive pressures. Traditional development treats these changes as disruptions. Each pivot requires manually propagating changes through documentation, design, and code. The result is either slow, careful updates that limit velocity, or fast, reckless changes that accumulate technical debt.
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SDD can support what-if/simulation experiments, "If we need to re-implement of change the application to promote a business need to sell more T-shirts, how would we implement and experiment for that?".
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SDD can support what-if/simulation experiments, "If we need to re-implement or change the application to promote a business need to sell more T-shirts, how would we implement and experiment for that?".
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SDD transforms requirement changes from obstacles into normal workflow. When specifications drive implementation, pivots become systematic regenerations rather than manual rewrites. Change a core requirement in the PRD, and affected implementation plans update automatically. Modify a user story, and corresponding API endpoints regenerate. This isn't just about initial development—it's about maintaining engineering velocity through inevitable changes.
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@@ -256,7 +256,7 @@ The constitution defines nine articles that shape every aspect of the developmen
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#### Article I: Library-First Principle
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Every feature must begin as a standalone library—no exceptions. This forces modular design from the start:
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```
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Every feature in Specify2 MUST begin its existence as a standalone library.
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Every feature in Specify MUST begin its existence as a standalone library.
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No feature shall be implemented directly within application code without
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first being abstracted into a reusable library component.
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```
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@@ -813,12 +813,12 @@ def init(
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if selected_ai == "claude":
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steps_lines.append(f"{step_num}. Open in Visual Studio Code and start using / commands with Claude Code")
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steps_lines.append(" - Type / in any file to see available commands")
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steps_lines.append(" - Use /spec to create specifications")
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steps_lines.append(" - Use /specify to create specifications")
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steps_lines.append(" - Use /plan to create implementation plans")
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steps_lines.append(" - Use /tasks to generate tasks")
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elif selected_ai == "gemini":
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steps_lines.append(f"{step_num}. Use / commands with Gemini CLI")
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steps_lines.append(" - Run gemini /spec to create specifications")
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steps_lines.append(" - Run gemini /specify to create specifications")
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steps_lines.append(" - Run gemini /plan to create implementation plans")
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steps_lines.append(" - See GEMINI.md for all available commands")
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elif selected_ai == "copilot":
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@@ -19,7 +19,7 @@ Given the implementation details provided as an argument, do this:
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3. Read the constitution at `/memory/constitution.md` to understand constitutional requirements.
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4. Execute the implementation plan template:
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- Load `/templates/implementation-plan-template.md` (already copied to IMPL_PLAN path)
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- Load `/templates/plan-template.md` (already copied to IMPL_PLAN path)
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- Set Input path to FEATURE_SPEC
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- Run the Execution Flow (main) function steps 1-10
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- The template is self-contained and executable
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Reference in New Issue
Block a user