model_id stringlengths 8 8 | part_ids listlengths 1 43 | prompt_abs stringlengths 215 27.7k | prompt_exp stringlengths 403 21.4k |
|---|---|---|---|
00000007 | [
"00001"
] | So, we start with a simple cylinder. The base is a circle with a radius of <v>0.091049</v>. This circle is sketched on the Top plane, right at the origin, so no rotation or translation is needed.
Next, we extrude this circle <v>0.0254</v> in the positive normal direction, which means it extends upwards from the sketc... | To construct the cylindrical part, begin by creating a 2D sketch on the Top plane. In this sketch, draw a circle with its center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.091049</v>. This circle will serve as the base profile for the cylinder.
Next, apply an extrusion operation to the sketch. Extrude the... |
00000061 | [
"00001"
] | In this model, we start with a sketch on the Top plane. The sketch forms a rectangular profile with rounded corners and a small circular cutout on one side. Here's how it breaks down:
- We draw a rectangle with sides <v>0.254</v> and <v>0.254</v>.
- One corner of the rectangle has a small circular cutout with a radiu... | To construct the rectangular plate with rounded corners and a central circular cutout, follow these steps:
Start by creating a new 2D sketch on the Top plane. In this sketch, draw the following shapes:
1. Draw a vertical line from <v>0.254</v>, <v>-0.254</v> to <v>0.254</v>, <v>0</v>.
2. Draw a horizontal line from <... |
00000062 | [
"00001",
"00002"
] | In part 1, we start with a top-down sketch. The first profile is a small triangle formed by three lines, creating a triangular cutout. The second profile is a complex curved shape made of multiple arcs and lines, forming a central curved element. The third profile is a small arc with a line, creating a small circular c... | To construct the "Bracket" model, follow these detailed steps:
### Sketch 1
1. **Profile 1:**
- Draw a square with sides of length <v>0.017961</v>. The vertices of the square are at:
- Start point: (<v>0</v>, <v>0</v>)
- End point of first line: (<v>-0.017961</v>, <v>0</v>)
- End point of second line... |
00000068 | [
"00001"
] | In this model, we have a symmetrical T-shaped bracket with circular cutouts at each end and a central rectangular section. Let's break it down:
The sketch is drawn on the Top plane. The main profile consists of several loops:
1. **Central Rectangular Section**: A rectangle defined by four lines, forming a <v>0.01</v>... | To construct the symmetrical T-shaped bracket with circular cutouts at each end and a central rectangular section, follow these detailed steps:
### Sketching the Profiles
1. **Profile 1:**
- Create a 2D sketch on the Top plane.
- Draw two concentric arcs centered at <v>-0.021625</v>, <v>0</v>:
- The first ... |
00000070 | [
"00001"
] | The model is a curved, symmetrical hook with a rectangular cross-section and two opposing hooks at each end. Here's how it's built:
First, a 2D sketch is created on the Front plane. The sketch consists of three main profiles:
1. **Main Hook Profile**: This profile forms the main curve of the hook. It includes several... | To construct the "Hook" model, follow these detailed steps:
Start by creating a new sketch on the **Front** plane. This sketch will define the profile of the hook. The sketch consists of three profiles: Profile 1, Profile 2, and Profile 3.
### Profile 1
1. Draw an arc starting at <v>0.008437</v>, <v>-0.042992</v>, en... |
00000071 | [
"00001",
"00005",
"00006"
] | In Part 1, we start with a top view sketch. The sketch consists of several profiles forming a symmetrical bracket. The main profile is a circular hub with a radius of <v>0.017462</v>, surrounded by radial arms and rectangular extensions. The arms extend outward from the hub and connect to rectangular sections. The enti... | ### Part 1: Bracket
#### Sketch 1
1. **Profile 1**: Create a closed loop with the following curves:
- **Arc 1**: Draw an arc from <v>0.016707</v>, <v>-0.00508</v> to <v>0.017416</v>, <v>-0.00127</v> with a center at the origin and a radius of <v>0.017462</v>. The arc sweeps <v>12.741742</v> degrees counterclockwise... |
00000073 | [
"00001",
"00002"
] | Part 1 starts with a sketch on the Top plane. The sketch consists of several rectangles and lines forming a rectangular plate with a central linear indentation. The main rectangle has a length of <v>1.527175</v> and a width of <v>0.81915</v>. The central indentation runs along the length of the plate. The entire plate ... | To construct the CAD model of a rectangular table with a flat top surface supported by two vertical legs at opposite ends, follow these detailed steps:
### Part 1: Plate
1. **Create Sketch 1**:
- Open a new sketch on the Top plane.
- Draw a rectangle with the following dimensions:
- Start at point <v>-0.763... |
00000076 | [
"00002",
"00003",
"00004"
] | Part 1 starts with four sketches on the Front plane. The first sketch forms a hexagonal profile with vertices at <v>-0.147207</v>, <v>0.801444</v>, <v>-0.042935</v>, <v>0.773505</v>, <v>0.147207</v>, <v>0.722556</v>. The second sketch is another hexagon with vertices at <v>0.275982</v>, <v>0.594878</v>, <v>0.331548</v>... | ### Part 1: Plates
Start by creating a new sketch on the **Front** plane. This sketch will consist of four separate profiles.
1. **Profile 1**:
- Draw a series of lines to form a closed loop:
- Line from <v>-0.147207</v>, <v>0.801444</v> to <v>-0.042935</v>, <v>0.773505</v>
- Line from <v>-0.042935</v>, ... |
00000102 | [
"00001"
] | So, we've got a simple cylinder here.
First, we draw a circle on the Top plane. The circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.021148</v>.
Next, we extrude this circle downward to create a solid cylinder. The extrusion depth is <v>0.00973</v>.
Finally, there's a slight chamfer along the edges, ... | To construct the cylindrical part, follow these steps:
Start by creating a 2D sketch on the **Top** plane. In this sketch, draw a circle with its center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.021148</v>. This circle will serve as the base profile for the cylinder.
Next, extrude the circle to create a... |
00000119 | [
"00001"
] | Alright, so here's how this model is built:
First, we have a sketch on the Front plane. This sketch forms a square profile with sides of <v>0.01</v>. The square is made up of four lines, each connecting the corners of the square.
Next, we extrude this square profile to create a rectangular prism. The extrusion is don... | To construct the rectangular prism with a hollowed-out section, follow these steps:
First, create a 2D sketch on the Front plane. Draw a rectangle by connecting four lines:
- Start at the origin (<v>0</v>, <v>0</v>) and draw a line to (<v>0.01</v>, <v>0</v>).
- From (<v>0.01</v>, <v>0</v>), draw a line to (<v>0.01</v>... |
00000123 | [
"00001"
] | So, we've got a cylinder here. Let's break it down:
First, there's a front plane sketch with two concentric circles. The outer circle has a radius of <v>0.041152</v>, and the inner circle has a radius of <v>0.021968</v>. These circles are centered at the origin.
Next, the sketch is extruded along the normal direction... | To construct the cylindrical part with a central circular cutout and rounded edges, follow these steps:
Start by creating a 2D sketch on the **Front** plane. In this sketch, draw two concentric circles centered at the origin:
- The outer circle has a radius of <v>0.041152</v>.
- The inner circle has a radius of <v>0.0... |
00000126 | [
"00001",
"00003"
] | Part 1 starts with a sketch on the Front plane. The sketch forms a rectangular profile with a central circular cutout. The rectangle has a length of <v>0.08</v> and a width of <v>0.06</v>. The circular cutout has a diameter of <v>0.02</v> and is centered within the rectangle. This sketch is then extruded <v>0.025</v> d... | To construct the CAD model, follow these detailed steps:
### Part 1: Block
1. **Create Sketch 1 on the Front Plane:**
- Draw a rectangle with the following points:
- Start at <v>0.024835</v>, <v>0.040318</v>
- Draw a line to <v>-0.055165</v>, <v>0.040318</v>
- Draw a line to <v>-0.055165</v>, <v>-0.... |
00000131 | [
"00001"
] | In the first part, we start with a sketch on the Right plane. The sketch contains two concentric circles. The outer circle has a radius of <v>0.008</v> and the inner circle has a radius of <v>0.0042</v>. Both circles share the same center at the origin.
Next, we extrude this sketch to create a torus. The extrusion is ... | To construct the torus shape, follow these steps:
First, create a 2D sketch on the **Right** plane. In this sketch, draw two concentric circles centered at the origin. The outer circle has a radius of <v>0.008</v>, and the inner circle has a radius of <v>0.0042</v>. These circles define the cross-sectional profile of ... |
00000132 | [
"00001"
] | In this model, we start by creating a sketch on the Right plane. The sketch consists of two concentric circles. The outer circle has a radius of <v>0.008</v>, and the inner circle has a radius of <v>0.0042</v>. Both circles share the same center at the origin.
Next, we extrude this sketch to create a solid. The extrus... | To construct the torus model, follow these steps:
Start by creating a 2D sketch on the **Right** plane. In this sketch, draw two concentric circles:
- The outer circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.008</v>.
- The inner circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.0042</v>.
... |
00000133 | [
"00001"
] | In this model, we start by creating a sketch on the Right plane. The sketch consists of two concentric circles. The outer circle has a center at the origin and a radius of <v>0.008</v>. The inner circle also has its center at the origin but with a smaller radius of <v>0.0042</v>.
Next, we extrude this sketch to create... | To construct the torus with a central circular cutout and uniform thickness, follow these steps:
Start by creating a 2D sketch on the **Right** plane. In this sketch, draw two concentric circles:
- The outer circle has a center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.008</v>.
- The inner circle also ha... |
00000134 | [
"00001"
] | In this model, we start with a rectangular profile on the Right plane. The rectangle has a width of <v>0.054092</v> and a height of <v>0.054294</v>. The rectangle is defined by four lines forming a closed loop.
Next, we extrude this rectangle to create a solid body. The extrusion is one-sided, extending <v>0.025</v> a... | To construct the part described as a symmetrical hexagonal prism, follow these steps:
First, create a 2D sketch on the **Right** plane. Draw a rectangle with the following dimensions:
- Start at point <v>0.02353</v>, <v>0.027849</v>
- Draw a line to point <v>-0.030562</v>, <v>0.023164</v>
- Draw a line to point <v>-0.... |
00000137 | [
"00001",
"00003"
] | In part 1, we start with a rectangular panel on the Top plane. The main shape is a rectangle with dimensions <v>0.335582</v> by <v>0.127</v>. Inside this rectangle, there are several circular cutouts arranged symmetrically. There are three rows of three small circles each, with a radius of <v>0.0127</v>. Additionally, ... | ### Part 1: Panel
#### Sketch 1
Start by creating a 2D sketch on the **Top** plane. Draw a rectangular profile with the following lines:
- A vertical line from <v>-0.167791</v>, <v>0.0635</v> to <v>-0.167791</v>, <v>-0.0635</v>
- A horizontal line from <v>-0.167791</v>, <v>-0.0635</v> to <v>0.167791</v>, <v>-0.0635</v... |
00000141 | [
"00001",
"00005",
"00006"
] | Part 1 starts with a complex 2D sketch on the Top plane. The sketch forms a C-shaped profile with a central cutout and two rectangular protrusions at each end. The main C-shape is made up of several arcs and lines, creating a smooth, curved outline. The central cutout is a smaller C-shape, and the rectangular protrusio... | ### Part 1: Clamp
#### Sketch 1
Create a 2D sketch on the Top plane. The sketch consists of multiple curves forming a complex profile:
1. **Arc**: Start at <v>-0.046131</v>, <v>-0.014175</v>, end at <v>0.047538</v>, <v>-0.008318</v>, center at <v>0</v>, <v>0</v>, radius <v>0.04826</v>, sweep angle 152.993 degrees, co... |
00000144 | [
"00001"
] | So, we've got a cylindrical object here. The base is a circle with a radius of <v>0.01143</v>. On top of this circle, there are two smaller circles, each with a radius of <v>0.002857</v>. These smaller circles are symmetrically placed at <v>0.007938</v> to the left and right of the center.
The whole thing is extruded ... | To construct the cylindrical part with symmetrical circular cutouts, follow these steps:
Start by creating a 2D sketch on the Top plane. In this sketch, draw three circles:
- The first circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.01143</v>.
- The second circle has a center at <v>0.007938</v>, <v>0</v... |
00000168 | [
"00001"
] | In the model, we have a single part called "Bracket." The construction starts with a 2D sketch on the Front plane. The sketch outlines a symmetrical L-shaped profile with a curved top section and a central cutout.
The main shape consists of:
- A vertical line from the bottom left corner up to the top left corner.
- A ... | To construct the bracket, follow these detailed steps:
Start by creating a 2D sketch on the **Front** plane. This sketch will form the profile of the bracket. The sketch consists of several lines and an arc:
1. Draw an arc with a center at <v>0.0762</v>, <v>0.092075</v> and a radius of <v>0.03175</v>. The arc starts ... |
00000171 | [
"00001",
"00003",
"00005"
] | First, we create a large cylinder. We start with a circle on the Top plane, centered at the origin with a radius of <v>0.008875</v>. We extrude this circle downwards by <v>0.0042</v> to form a cylinder with a height of <v>0.0042</v>.
Next, we add a smaller cylinder on top of the first one. We draw another circle on th... | To construct the CAD model, follow these detailed steps:
### Part 1: Base Cylinder
1. **Create Sketch 1**:
- Open a new sketch on the **Top Plane**.
- Draw a **circle** with a center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.008875</v>.
2. **Extrude Sketch 1**:
- Extrude the circle to create a ... |
00000172 | [
"00001",
"00003",
"00005"
] | Part 1 starts with a sketch on the Front plane. The sketch has two nested rectangles. The outer rectangle has sides of <v>0.032</v> and the inner rectangle has sides of <v>0.02655</v>. The sketch is then extruded <v>0.762</v> along the normal direction, creating a rectangular prism beam with a smaller rectangular hole ... | ### Part 1: Beam
1. **Sketch 1**:
- Create a new sketch on the **Front** plane.
- Draw a rectangle with the following vertices:
- Start at <v>0.016</v>, <v>0.016</v>
- Draw a line to <v>-0.016</v>, <v>0.016</v>
- Draw a line to <v>-0.016</v>, <v>-0.016</v>
- Draw a line to <v>0.016</v>, <v>-0... |
00000173 | [
"00001"
] | Alright, so here's how this model is built:
First, we have a single sketch on the Top plane. In this sketch, there's a circle with a center at <v>0</v>, <v>0</v> and a radius of <v>0.009525</v>.
Next, we extrude this circle to create a cylinder. The extrusion is done along the normal direction of the sketch plane, a... | To construct the cylindrical part, follow these steps:
Start by creating a **2D sketch** on the **Top plane**. In this sketch, draw a **circle** with a center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.009525</v>. This circle will serve as the base profile for the cylinder.
Next, apply an **extrusion** t... |
00000174 | [
"00001"
] | In this model, we start with a hexagonal profile on the Top plane. The hexagon has sides of length <v>0.0093</v> and is centered at the origin. Inside the hexagon, there's a circular cutout with a radius of <v>0.009525</v>.
The hexagonal shape is then extruded downwards by <v>0.0127</v> to form a hexagonal prism. The... | To construct the nut, follow these detailed steps:
Start by creating a new sketch on the Top plane. In this sketch, draw a hexagonal profile using eight lines:
- Draw a line from <v>0.015875</v>, <v>0.006576</v> to <v>0.006576</v>, <v>0.015875</v>.
- Draw a line from <v>0.006576</v>, <v>-0.015875</v> to <v>0.015875</v... |
00000175 | [
"00001"
] | The washer is built by starting with a top-down sketch on the Top plane. The sketch consists of two concentric circles: an outer circle with a radius of <v>0.025</v> and an inner circle with a radius of <v>0.01</v>. Both circles share the same center at the origin.
Next, the sketch is extruded downwards by a depth of ... | To construct the washer model, follow these steps:
First, create a 2D sketch on the Top plane. In this sketch, draw two concentric circles:
- The outer circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.025</v>.
- The inner circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.01</v>.
Next, apply... |
00000176 | [
"00001"
] | In this model, we have a hollow cylindrical part. Here's how it's built:
First, we create a 2D sketch on the Top plane. The sketch has two concentric circles. The outer circle has a radius of <v>0.014</v> and the inner circle has a radius of <v>0.009525</v>. Both circles share the same center at the origin.
Next, we ... | To construct the hollow cylindrical part, follow these steps:
Start by creating a 2D sketch on the Top plane. In this sketch, draw two concentric circles. The first circle has a center at the origin and a radius of <v>0.014</v>. The second circle, which is smaller, also has its center at the origin but with a radius o... |
00000177 | [
"00001"
] | In part 1, we start with a simple circular profile on the Top plane. The circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.2</v>. This circle is then extruded downward by <v>0.01905</v> to create a disk. The disk has a flat top surface and a slightly raised edge, making it symmetrical. The overall dimensio... | To construct the disk, begin by creating a 2D sketch on the Top plane. In this sketch, draw a circle with its center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.2</v>. This circle will serve as the profile for the disk.
Next, apply an extrusion operation to the sketch. Extrude the circle in the direction n... |
00000180 | [
"00001",
"00003",
"00005",
"00009",
"00011"
] | Part 1 starts with a square profile on the Top plane. The square has sides of length <v>0.0423</v>. This square is extruded downwards by <v>0.043</v>, forming a cube.
Part 2 adds a circular profile on the Top plane, centered at the origin and with a radius of <v>0.011</v>. This circle is positioned on top of the cube ... | To construct the CAD model, follow these detailed steps:
### Part 1: Cube
1. **Sketch 1**:
- Create a 2D sketch on the **Top** plane.
- Draw a square profile with the following lines:
- Line from <v>0.02115</v>, <v>0.02115</v> to <v>-0.02115</v>, <v>0.02115</v>
- Line from <v>-0.02115</v>, <v>-0.02115<... |
00000182 | [
"00001"
] | So, let's break down how this U-shaped channel is built:
First, we have a 2D sketch on the Front plane. The sketch outlines a rectangular profile with a width of <v>0.04</v> and a height of <v>0.02</v>. This profile is centered at the origin, extending from <v>-0.02</v> to <v>0.02</v> in the x-direction and from <v>0<... | To construct the U-shaped channel, follow these steps:
First, create a 2D sketch on the **Front** plane. Draw the following lines to form the profile of the channel:
- A vertical line from <v>0.02</v>, <v>0</v> to <v>0.02</v>, <v>0.02</v>
- A vertical line from <v>-0.016</v>, <v>0</v> to <v>-0.016</v>, <v>0.016</v>
- ... |
00000187 | [
"00001"
] | So, we start with a simple 2D sketch on the Top plane. The sketch forms a square profile with vertices at <v>-15</v>, <v>-15</v>, <v>15</v>, <v>-15</v>, <v>15</v>, <v>15</v>, and <v>-15</v>, <v>15</v>. This square has sides of length <v>30</v>.
Next, we extrude this square profile along the normal direction by a depth... | To construct the cube, start by creating a 2D sketch on the Top plane. Draw a square profile by defining four lines:
- Draw a horizontal line from <v>-15</v>, <v>-15</v> to <v>15</v>, <v>-15</v>.
- Draw a vertical line from <v>-15</v>, <v>15</v> to <v>-15</v>, <v>-15</v>.
- Draw a horizontal line from <v>15</v>, <v>15... |
00000190 | [
"00001"
] | The model is a symmetrical pyramid with a square base and a flat top.
First, a square is sketched on the Top plane. The square has sides of length <v>0.05</v>. The corners of the square are at coordinates <v>-0.025</v>, <v>-0.025</v>, <v>0.025</v>, <v>-0.025</v>, <v>0.025</v>, <v>0.025</v>, and <v>-0.025</v>, <v>0.02... | To construct the pyramid, start by creating a 2D sketch on the Top plane. This sketch will define the base of the pyramid. Draw a square profile using four lines:
- Draw a horizontal line from <v>-0.025</v>, <v>-0.025</v> to <v>0.025</v>, <v>-0.025</v>.
- Draw a diagonal line from <v>0.025</v>, <v>0.025</v> to <v>-0.0... |
00000196 | [
"00001",
"00003"
] | Part 1 starts with a sketch on the Top plane. The sketch outlines a rectangle with dimensions <v>0.075</v> by <v>0.054</v> and a circular cutout in the middle with a radius of <v>0.009</v>. This sketch is then extruded downwards by <v>0.025</v> to form a rectangular block with a circular hole through its top surface.
... | To construct the CAD model, follow these detailed steps:
### Part 1: Block with Circular Cutout
1. **Create the Sketch:**
- Start by creating a new 2D sketch on the Top plane.
- Draw a rectangle with the following lines:
- Line from (<v>0.037</v>, <v>-0.027</v>) to (<v>0.037</v>, <v>0.027</v>)
- Line ... |
00000237 | [
"00001",
"00004"
] | So, we have two parts here. Let's break it down.
### Part 1: The Cube
First, we create a sketch on the Right plane. The sketch is a square with sides of length <v>0.1016</v>. The square is defined by four lines, each connecting the corners of the square.
Next, we extrude this square sketch along the normal direction... | To construct the CAD model, follow these detailed steps:
### Part 1: Cube
1. **Create the Sketch:**
- Open a new sketch on the **Right** plane.
- Draw a square profile with the following lines:
- Line from (<v>0.0508</v>, <v>-0.0508</v>) to (<v>0.0508</v>, <v>0.0508</v>)
- Line from (<v>-0.0508</v>, <... |
00000238 | [
"00002"
] | So, we've got this L-shaped frame called CornerFrame. Here's how it's built:
First, we draw a 2D sketch on the Front plane. The sketch forms an L-shape with a central cutout. The outer dimensions of the L-shape are about <v>0.08255</v> wide and <v>0.073025</v> tall. The inner cutout makes the L-shape look like it has ... | To construct the **CornerFrame** model, follow these detailed steps:
### Sketch 1
1. Start by creating a new sketch on the **Front** plane. This sketch will define the profile of the L-shaped frame.
2. Draw the following lines to form the outline:
- A vertical line from <v>0</v>, <v>-0.03175</v> to <v>0</v>, <v>0.0... |
00000249 | [
"00001"
] | The model is a symmetrical U-shaped connector with rectangular flanges extending perpendicularly from each end. Here’s how it’s built:
First, we create a 2D sketch on the Top plane. The sketch forms a complex profile that looks like a U-shape with additional lines and arcs.
The main U-shape is formed by two horizont... | To construct the "Connector" part, follow these detailed steps:
### Sketching the Profile
1. **Create a New Sketch** on the Top plane. This sketch will define the cross-sectional profile of the connector.
2. **Draw the Outer Arc**: Start by drawing an arc with a center at the origin (<v>0</v>, <v>0</v>). The arc shoul... |
00000250 | [
"00001",
"00003",
"00005"
] | Part 1 starts with a rectangular sketch on the Right plane. The rectangle has a height of <v>0.08255</v> and a width of <v>0.053975</v>. This sketch is extruded <v>0.0127</v> deep towards the normal, creating a thin rectangular panel.
Part 2 involves a rectangular sketch on the Right plane, positioned at <v>0.0127</v>... | ### Part 1: Panel
Start by creating a 2D sketch on the **Right** plane. Draw a rectangle with the following dimensions:
- Start at the origin <v>0</v>, <v>0</v>
- Draw a horizontal line to <v>-0.053975</v>, <v>0</v>
- Draw a vertical line to <v>-0.053975</v>, <v>0.08255</v>
- Draw a horizontal line back to <v>0</v>, <... |
00000251 | [
"00001"
] | In this model, we have a single part that forms a cylinder. Here's how it's built:
First, we create a 2D sketch on the Right plane. The sketch contains a single circle with a center at <v>0</v>, <v>0</v> and a radius of <v>0.022419</v>. This circle represents the cross-section of the cylinder.
Next, we apply an extru... | To construct the cylindrical part, begin by creating a 2D sketch on the **Right** plane. In this sketch, draw a circle with its center at the origin and a radius of <v>0.022419</v>.
Next, apply an extrusion operation to the circle. Set the extrusion type to create a new body and extend it <v>1.5</v> in the direction ... |
00000257 | [
"00001"
] | In this model, we have a single part that forms a torus with a central circular cutout. Here’s how it’s built:
First, we create a 2D sketch on the Top plane. The sketch consists of two concentric circles. The outer circle has a center at <v>0</v>, <v>0</v> and a radius of <v>0.0035</v>. The inner circle, which forms t... | To construct the torus model, follow these steps:
First, create a 2D sketch on the Top plane. In this sketch, draw two concentric circles. The larger circle has a center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.0035</v>. The smaller circle, which forms the central cutout, also has its center at the orig... |
00000272 | [
"00001",
"00003"
] | Part 1 starts with a simple circle sketch on the Front plane. The circle has a radius of <v>0.015875</v>. This sketch is then extruded <v>0.003175</v> along the normal direction, creating a flat disk with a uniform thickness. The disk is symmetrical and has no additional features.
Part 2 involves another circle sketch... | ### Part 1: Disk
1. **Create Sketch 1:**
- Start by creating a new sketch on the **Front** plane.
- Draw a circle with a center at the origin (<v>0</v>, <v>0</v>) and a radius of <v>0.015875</v>.
2. **Extrude Sketch 1:**
- Extrude the circle to create a new body.
- Set the extrusion depth to <v>0.003175</... |
00000274 | [
"00001"
] | So, we've got a rectangular structure with three connected sections, each with different heights and a central raised platform. Here's how it's built:
First, we draw a 2D sketch on the Front plane. The sketch outlines a rectangular shape with some additional lines to create the different sections. Specifically, we hav... | To construct the model of the partition, follow these detailed steps:
### Sketch 1
1. **Create a 2D Sketch** on the **Front Plane**. This sketch will define the profile of the partition.
2. **Draw the Profile**:
- Draw a vertical line from <v>0</v>, <v>0.009525</v> to <v>0</v>, <v>0</v>.
- Draw a vertical line f... |
00000327 | [
"00001"
] | So, we've got a rectangular prism here. The first step is to create a 2D sketch on the front plane. This sketch forms a rectangle with sides <v>0.1016</v> and <v>0.047625</v>.
Next, we extrude this rectangle along the normal direction by <v>0.0254</v> to create a solid rectangular prism.
The result is a simple rect... | To construct the rectangular prism with a hollowed-out section, follow these steps:
First, create a 2D sketch on the **Front** plane. Draw a rectangle with the following dimensions:
- Start at the origin <v>0</v>, <v>0</v>
- Draw a vertical line from <v>0</v>, <v>0</v> to <v>0</v>, <v>0.047625</v>
- Draw a horizontal ... |
00000329 | [
"00001"
] | So, we're building a bracket here. Let's break it down:
First, we have a 2D sketch on the Top plane. The main profile is a rectangle with dimensions <v>0.0762</v> by <v>0.015875</v>. Inside this rectangle, there's a central oval cutout made up of two arcs and two lines. The arcs have a radius of <v>0.004763</v>. There... | To construct the bracket, follow these detailed steps:
Start by creating a 2D sketch on the Top plane. The sketch consists of several loops:
1. **Outer Rectangle:**
- Draw a line from <v>0.0762</v>, <v>0.015875</v> to <v>0</v>, <v>0.015875</v>.
- Draw a line from <v>0</v>, <v>0</v> to <v>0.0762</v>, <v>0</v>.
... |
00000330 | [
"00001",
"00003",
"00005"
] | Part 1 starts with a rectangular sketch on the Top plane. The rectangle has a length of <v>0.0762</v> and a width of <v>0.015875</v>. This sketch is extruded downwards by <v>0.041275</v>, creating a rectangular channel with parallel walls and a central void.
Part 2 builds on top of Part 1. A new rectangular sketch is ... | ### Part 1: Channel
1. **Sketch 1**:
- Create a rectangle on the **Top Plane** with the following dimensions:
- Start at the origin (<v>0</v>, <v>0</v>)
- Draw a vertical line from (<v>0</v>, <v>0</v>) to (<v>0</v>, <v>0.015875</v>)
- Draw a horizontal line from (<v>0</v>, <v>0.015875</v>) to (<v>0.0... |
00000347 | [
"00001",
"00003",
"00005",
"00007",
"00009",
"00011",
"00013"
] | Let's break down how this bracket model is built:
### Part 1: Main Bracket Body
- **Sketch**: The footprint is sketched on the Top plane. It forms a rectangular shape with rounded corners and a circular cutout near one end.
- The main rectangle has a length of <v>0.13335</v> and a width of <v>0.0889</v>.
- The rou... | ### Part 1: Bracket Base
1. **Sketch the Footprint:**
- Create a new sketch on the Top plane.
- Draw a rectangle with the following dimensions:
- Start at <v>0.00635</v>, <v>0</v>
- Draw a horizontal line to <v>0.0889</v>, <v>0</v>
- Draw a vertical line to <v>0.0889</v>, <v>0.02921</v>
- Dra... |
00000348 | [
"00001",
"00003"
] | Part 1 starts with a sketch on the Top plane. The main profile is a rectangle with rounded corners. The rectangle has a length of <v>0.024638</v> and a width of <v>0.00635</v>. Two smaller circles are cut out from the rectangle, one near each end. These circles have a radius of <v>0.001587</v>. The sketch is then extru... | ### Part 1: Bracket
#### Sketch 1
Start by creating a 2D sketch on the **Top** plane. The sketch consists of several lines and arcs forming a rectangular profile with rounded corners and two circular cutouts:
- Draw a vertical line from <v>0</v>, <v>0.005842</v> to <v>0</v>, <v>0.000508</v>.
- Draw a horizontal line ... |
00000349 | [
"00001",
"00003",
"00005",
"00007",
"00009"
] | Part 1 starts with a sketch on the Top plane. The main profile is a rectangle with rounded corners. Inside, there are two smaller circles and two tiny circles. The rectangle has a central dividing wall. This sketch is extruded downwards by <v>0.022225</v>. The result is a rectangular bracket with rounded corners, two c... | ### Part 1: Bracket Base
**Step 1: Create the Footprint Sketch**
- Start by creating a 2D sketch on the **Top** plane.
- Draw a rectangle with the following dimensions:
- Bottom-left corner at <v>0</v>, <v>0</v>
- Top-right corner at <v>0.0889</v>, <v>0.0889</v>
- Add two arcs to create rounded corners:
- First ... |
00000350 | [
"00001",
"00003",
"00005",
"00007",
"00009"
] | Part 1 starts with a sketch on the Top plane. The profile consists of a large rectangle with rounded corners and a smaller circular cutout near one end. The rectangle has a width of <v>0.098425</v> and a height of <v>0.0889</v>. The rounded corners have a radius of <v>0.00635</v>, and the circular cutout has a radius o... | ### Part 1: Bracket Base
Start by creating a new sketch on the **Top** plane. In this sketch, draw the following profile:
1. Draw an arc starting at <v>0</v>, <v>0.00635</v> and ending at <v>0.00635</v>, <v>0</v>. The center of the arc is at <v>0.00635</v>, <v>0.00635</v> with a radius of <v>0.00635</v> and a sweep a... |
00000352 | [
"00001",
"00003",
"00005",
"00007",
"00009",
"00011"
] | Let's break down how this model is built, starting with the main parts.
### Part 1: L-Shaped Bracket
- **Sketch**: The sketch is on the Top plane. It forms an L-shape with rounded corners and three small holes.
- The L-shape has a larger rectangle with rounded corners at both ends. The dimensions are roughly <v>0.07... | ### Part 1: Symmetrical L-Shaped Bracket
1. **Sketch 1**:
- Create a new sketch on the Top plane.
- Draw the following curves:
- An arc starting at <v>0.00508</v>, <v>0.078105</v> and ending at <v>0</v>, <v>0.073025</v> with a center at <v>0.00508</v>, <v>0.073025</v> and a radius of <v>0.00508</v>. The arc... |
00000356 | [
"00001"
] | In this model, we have a hexagonal prism with a hollow center. Here’s how it’s built:
First, we draw a hexagon on the Top plane. The outer hexagon has vertices at <v>-0.051693</v>, <v>0</v>; <v>-0.025847</v>, <v>-0.044768</v>; <v>0.025847</v>, <v>-0.044768</v>; <v>0.051693</v>, <v>0</v>; <v>0.025847</v>, <v>0.044768</... | To construct the hexagonal prism with a hollow center, follow these detailed steps:
Start by creating a 2D sketch on the Top plane. This sketch will define the profile of the hexagonal prism. The sketch consists of two loops:
1. **Outer Hexagon:**
- Draw a line from <v>-0.025847</v>, <v>-0.044768</v> to <v>0.02584... |
00000363 | [
"00001",
"00002"
] | Part 1 starts with a sketch on the Front plane. The sketch includes a square outline with sides of <v>0.025</v> and a circle with a radius of <v>0.01</v> centered inside the square. The square forms the outer boundary, and the circle creates a hole. The sketch is then extruded <v>0.025</v> along the normal direction, f... | ### Part 1: Cuboid with Cylindrical Cutout
Start by creating a new sketch on the **Front** plane. In this sketch, draw a rectangle with vertices at the following points:
- Start at <v>-0.0125</v>, <v>-0.0125</v>
- Draw a line to <v>0.0125</v>, <v>-0.0125</v>
- Draw a line to <v>0.0125</v>, <v>0.0125</v>
- Draw a line ... |
Recap-OmniCAD
Recap-OmniCAD is a large-scale CAD dataset introduced in the CVPR 2026 paper:
Pointer-CAD: Unifying B-Rep and Command Sequences via Pointer-based Edges & Faces Selection
Dacheng Qi, Chenyu Wang, Jingwei Xu, Tianzhe Chu, Zibo Zhao, Wen Liu, Wenrui Ding, Yi Ma, Shenghua Gao
Data Extraction
If you have downloaded a set of tar.gz archives under ./data, you can extract each archive into a folder with the same name as the archive file.
For example, 0000.tar.gz will be extracted into the 0000/ folder:
for archive in ./data/*.tar.gz; do
folder_name=$(basename "$archive" .tar.gz)
mkdir -p "./data/$folder_name"
tar --no-same-owner -xzf "$archive" -C "./data/$folder_name"
done
After successful extraction, the original tar.gz archives can be removed to save disk space:
rm ./data/*.tar.gz
Dataset Structure
After extraction, the dataset directory (data/) has the following structure:
data/
|-- chunk_id
| |-- model_id
| | |-- graph
| | |-- json
| | | `-- *.json
| | |-- prompt_abs.txt
| | |-- prompt_exp.txt
| | `-- vector
| | `-- *.pkl
| |-- model_id
| |-- graph
| |-- json
| | `-- *.json
| |-- prompt_abs.txt
| |-- prompt_exp.txt
| `-- vector
| `-- *.pkl
Each model_id directory corresponds to an individual CAD model and contains:
graph/: B-Rep graph representations for each part.json/: CAD command sequence annotations for each part.vector/: vector representations for each part.prompt_abs.txt: abstract-level annotations.prompt_exp.txt: expert-level annotations.
Dataset Usage
The extracted data/ directory should be used as the dataset directory (dataset_dir) during training and evaluation.
The dataset split file is provided in the repository:
train_val_test.json
and should be specified as the split file path (split_filepath) for training and evaluation.
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