speckles/speckles.py

import itertools
import io
from fastapi.responses import StreamingResponse
from pathlib import Path
import pyvips
import logging
from perlin import CoordsGenerator
import svg

import numpy as np
import uvicorn
from fastapi import FastAPI
from fastapi.middleware.cors import CORSMiddleware

app = FastAPI(title="Speckles API", root_path="/images")
origins = [
    "http://localhost",
    "http://localhost:3000",
    "https://localhost",
    "https://0124816.xyz",
    "http://0124816.xyz:3001",
]

app.add_middleware(
    CORSMiddleware,
    allow_origins=origins,
    allow_credentials=True,
    allow_methods=["*"],
    allow_headers=["*"],
)

RGen = np.random.default_rng()

MEDIA_TYPES = {
    "png": "image/png",
    "jpeg": "image/jpeg",
    "jpg": "image/jpeg",
    "svg": "image/svg+xml",
    "pdf": "application/pdf",
}


def emoji(marker: str, source="twemoji"):
    if len(marker) != 1:
        return
    if source == "openmoji":
        scaler = 512
        file = hex(ord(marker))[2:].upper()
    elif source == "twemoji":
        scaler = 768
        file = hex(ord(marker))[2:]
    file = Path(f"{source}/{file}.svg")
    if file.is_file():
        return svg.G(
            elements=[Include(text=file.read_text())],
            id=marker,
            transform=[svg.Scale(100 / scaler)],
        )


class Include(svg.Element):
    element_name = "svg"
    transform: list[svg.Transform] | None = None

    def __str__(self) -> str:
        return self.text


DEFINED = ".o+tYP-|sSex*"


def markertoSVG(marker, x, y, c, s):
    if marker == ".":
        return svg.Circle(cx=x, cy=y, fill=c, r=np.sqrt(s))
    elif marker == "o":
        return svg.Circle(
            cx=x,
            cy=y,
            stroke=c,
            fill="none",
            stroke_width=np.sqrt(s / 4),
            r=np.sqrt(s),
        )
    elif marker == "+":
        shift = np.sqrt(s)
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            stroke_linecap="round",
            d=[
                svg.M(x - shift, y),  # horizontal line
                svg.L(x + shift, y),
                svg.M(x, y - shift),  # vertical line
                svg.L(x, y + shift),
            ],
        )
    elif marker == "t":
        shift = np.sqrt(s)
        return svg.Polygon(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            stroke_linejoin="round",
            points=[
                x + shift * np.sqrt(3) / 2,
                y - shift / 2,
                x - shift * np.sqrt(3) / 2,
                y - shift / 2,
                x,
                y + shift,
            ],
            transform=[svg.Rotate(RGen.random() * 360, x, y)],
        )
    elif marker == "Y":
        shift = np.sqrt(s)
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            stroke_linecap="round",
            d=[
                svg.M(x + shift * np.sqrt(3) / 2, y - shift / 2),  # / line
                svg.L(x, y),
                svg.M(x - shift * np.sqrt(3) / 2, y - shift / 2),  # / line
                svg.L(x, y),
                svg.M(x, y + shift),  # / line
                svg.L(x, y),
            ],
            transform=[svg.Rotate(RGen.random() * 360, x, y)],
        )
    elif marker == "P":
        shift = np.sqrt(s)
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) * 2 / 3,
            d=[
                svg.M(x - shift, y),  # horizontal line
                svg.L(x + shift, y),
                svg.M(x, y - shift),  # vertical line
                svg.L(x, y + shift),
            ],
        )
    elif marker == "-":
        shift = np.sqrt(s)
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            d=[
                svg.M(x - shift, y),  # horizontal line
                svg.L(x + shift, y),
            ],
        )
    elif marker == "|":
        shift = np.sqrt(s)
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            d=[
                svg.M(x, y - shift),  # vertical line
                svg.L(x, y + shift),
            ],
        )
    elif marker == "s":
        shift = np.sqrt(s) * 2
        return svg.Rect(x=x, y=y, width=shift, height=shift, fill=c)
    elif marker == "S":
        s = np.sqrt(s) * 2
        return svg.Rect(x=x, y=y, width=s, height=s, fill=c, rx=s / 3, ry=s / 3)
    elif marker == "e":
        s = np.sqrt(s * 2)
        return svg.Ellipse(
            cx=x,
            cy=y,
            fill=c,
            rx=s,
            ry=s / 2,
            transform=[svg.Rotate(RGen.random() * 360, x, y)],
        )
    elif marker == "x":
        shift = np.sqrt(s)
        scale = np.sqrt(2) / 2
        return svg.Path(
            stroke=c,
            stroke_width=np.sqrt(s) / 4,
            stroke_linecap="round",
            d=[
                svg.M(x - shift * scale, y - shift * scale),  # / line
                svg.L(x + shift * scale, y + shift * scale),
                svg.M(x - shift * scale, y + shift * scale),
                svg.L(x + shift * scale, y - shift * scale),  # / line
            ],
        )
    elif marker == "*":
        shift = np.sqrt(s)
        return [
            svg.Path(
                stroke=c,
                stroke_width=np.sqrt(s) / 4,
                stroke_linecap="round",
                transform=[svg.Rotate(angle, x, y)],
                d=[
                    svg.M(x - shift, y),
                    svg.L(x + shift, y),
                ],
            )
            for angle in (0, 60, -60)
        ]
    else:
        return svg.Use(
            href=f"#{marker}",
            transform=[svg.Translate(x=x, y=y), svg.Scale(np.sqrt(s) / 100)],
        )


@app.get("/speckles/")
def make_wallpaper(
    speckle_colours: str,
    density: float = 0.12,
    size: float = 3,
    fileformat: str = "svg",
    orientation: str = "landscape",
    filename: str = "",
    markers: str = ".",
    perlin: bool = True,
):
    speckle_colours = speckle_colours.split(",")
    background = speckle_colours.pop(0)
    if orientation == "portrait":
        x, y = (1080, 1920)
    elif orientation == "landscape":
        x, y = (1920, 1080)
    elif "x" in orientation:
        resolution = orientation.split("x")
        if len(resolution) != 2:
            logging.critical("input resolution has more or less than 2 dimensions")
            return
        x, y = resolution
        if all([x.isdigit(), y.isdigit()]):
            x, y = int(x), int(y)
        else:
            return
    else:
        x, y = (1920, 1080)
    speckles_per_colour = int(x / 128 * y / 128 * density / len(markers))

    if perlin:
        gen = CoordsGenerator(x, y)

    elements = [svg.Rect(width=x, height=y, color=background)]
    style = svg.Style(
        text="\n".join(
            [f".c{colour[1:]} {{ fill: {colour}; }}" for colour in speckle_colours]
        )
    )
    elements.append(style)
    style = svg.Style(
        text="\n".join(
            [
                f'.s{hex(int(size*100))[2:]} {{ font-family: "OpenMoji"; font-size: {int(np.sqrt(size)*16)}px; }}'
                for size in np.logspace(0, size, 10, base=np.exp(2))
            ]
        )
    )
    elements.append(style)

    elements.append(
        svg.Defs(
            elements=[emoji(marker) for marker in markers if marker not in DEFINED]
        )
    )

    for colour, marker, size in itertools.product(
        speckle_colours,
        markers,
        np.logspace(0, size, 10, base=np.exp(2)),
    ):
        if perlin:
            xs, ys = gen.pick(speckles_per_colour)
        else:
            xs, ys = zip(
                RGen.random(speckles_per_colour) * x,
                RGen.random(speckles_per_colour) * y,
            )
        elements.extend(
            [markertoSVG(marker, x, y, colour, size) for x, y in zip(xs, ys)]
        )

    content = svg.SVG(width=x, height=y, elements=elements)
    if filename:
        if Path(filename).suffix == ".svg":
            with open(filename, "wt") as f:
                f.write(content.as_str())
        else:
            with pyvips.Image.svgload_buffer(content.as_str().encode("utf-8")) as image:
                image.write_to_file(filename)
        return filename
    elif fileformat:
        buf = io.BytesIO(content.as_str().encode("utf-8"))
        buf.seek(0)
        return StreamingResponse(content=buf, media_type=MEDIA_TYPES[fileformat])


if __name__ == "__main__":
    uvicorn.run("speckles:app", workers=3, port=8099)
Initial commit 2023-05-18 14:15:37 +00:00			`import itertools`
as API 2024-10-27 18:46:19 +00:00			`import io`
			`from fastapi.responses import StreamingResponse`
Initial commit 2023-05-18 14:15:37 +00:00			`from pathlib import Path`
save as different image formats (pyvips) 2024-10-27 18:28:02 +00:00			`import pyvips`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`import logging`
			`from perlin import CoordsGenerator`
			`import svg`
Initial commit 2023-05-18 14:15:37 +00:00
			`import numpy as np`
as API 2024-10-27 18:46:19 +00:00			`import uvicorn`
			`from fastapi import FastAPI`
			`from fastapi.middleware.cors import CORSMiddleware`

			`app = FastAPI(title="Speckles API", root_path="/images")`
			`origins = [`
			`"http://localhost",`
			`"http://localhost:3000",`
			`"https://localhost",`
			`"https://0124816.xyz",`
			`"http://0124816.xyz:3001",`
			`]`

			`app.add_middleware(`
			`CORSMiddleware,`
			`allow_origins=origins,`
			`allow_credentials=True,`
			`allow_methods=["*"],`
			`allow_headers=["*"],`
			`)`
Initial commit 2023-05-18 14:15:37 +00:00
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`RGen = np.random.default_rng()`
Initial commit 2023-05-18 14:15:37 +00:00
as API 2024-10-27 18:46:19 +00:00			`MEDIA_TYPES = {`
			`"png": "image/png",`
			`"jpeg": "image/jpeg",`
			`"jpg": "image/jpeg",`
			`"svg": "image/svg+xml",`
			`"pdf": "application/pdf",`
			`}`

working with some emojis and card game characters 2024-10-25 20:54:46 +00:00
add posibility for including emojis 2024-10-27 15:42:02 +00:00			`def emoji(marker: str, source="twemoji"):`
			`if len(marker) != 1:`
			`return`
			`if source == "openmoji":`
			`scaler = 512`
			`file = hex(ord(marker))[2:].upper()`
			`elif source == "twemoji":`
			`scaler = 768`
			`file = hex(ord(marker))[2:]`
			`file = Path(f"{source}/{file}.svg")`
			`if file.is_file():`
			`return svg.G(`
			`elements=[Include(text=file.read_text())],`
			`id=marker,`
			`transform=[svg.Scale(100 / scaler)],`
			`)`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00

add posibility for including emojis 2024-10-27 15:42:02 +00:00			`class Include(svg.Element):`
			`element_name = "svg"`
			`transform: list[svg.Transform] \| None = None`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00
add posibility for including emojis 2024-10-27 15:42:02 +00:00			`def __str__(self) -> str:`
			`return self.text`
Initial commit 2023-05-18 14:15:37 +00:00

add posibility for including emojis 2024-10-27 15:42:02 +00:00			`DEFINED = ".o+tYP-\|sSex*"`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00

			`def markertoSVG(marker, x, y, c, s):`
			`if marker == ".":`
			`return svg.Circle(cx=x, cy=y, fill=c, r=np.sqrt(s))`
			`elif marker == "o":`
			`return svg.Circle(`
			`cx=x,`
			`cy=y,`
			`stroke=c,`
			`fill="none",`
			`stroke_width=np.sqrt(s / 4),`
			`r=np.sqrt(s),`
			`)`
			`elif marker == "+":`
			`shift = np.sqrt(s)`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`stroke_linecap="round",`
			`d=[`
			`svg.M(x - shift, y), # horizontal line`
			`svg.L(x + shift, y),`
			`svg.M(x, y - shift), # vertical line`
			`svg.L(x, y + shift),`
			`],`
			`)`
			`elif marker == "t":`
			`shift = np.sqrt(s)`
			`return svg.Polygon(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`stroke_linejoin="round",`
			`points=[`
			`x + shift * np.sqrt(3) / 2,`
			`y - shift / 2,`
			`x - shift * np.sqrt(3) / 2,`
			`y - shift / 2,`
			`x,`
			`y + shift,`
			`],`
			`transform=[svg.Rotate(RGen.random() * 360, x, y)],`
			`)`
			`elif marker == "Y":`
			`shift = np.sqrt(s)`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`stroke_linecap="round",`
			`d=[`
			`svg.M(x + shift * np.sqrt(3) / 2, y - shift / 2), # / line`
			`svg.L(x, y),`
			`svg.M(x - shift * np.sqrt(3) / 2, y - shift / 2), # / line`
			`svg.L(x, y),`
			`svg.M(x, y + shift), # / line`
			`svg.L(x, y),`
			`],`
			`transform=[svg.Rotate(RGen.random() * 360, x, y)],`
			`)`
			`elif marker == "P":`
			`shift = np.sqrt(s)`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) * 2 / 3,`
			`d=[`
			`svg.M(x - shift, y), # horizontal line`
			`svg.L(x + shift, y),`
			`svg.M(x, y - shift), # vertical line`
			`svg.L(x, y + shift),`
			`],`
			`)`
			`elif marker == "-":`
			`shift = np.sqrt(s)`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`d=[`
			`svg.M(x - shift, y), # horizontal line`
			`svg.L(x + shift, y),`
			`],`
			`)`
			`elif marker == "\|":`
			`shift = np.sqrt(s)`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`d=[`
			`svg.M(x, y - shift), # vertical line`
			`svg.L(x, y + shift),`
			`],`
			`)`
			`elif marker == "s":`
			`shift = np.sqrt(s) * 2`
			`return svg.Rect(x=x, y=y, width=shift, height=shift, fill=c)`
			`elif marker == "S":`
			`s = np.sqrt(s) * 2`
			`return svg.Rect(x=x, y=y, width=s, height=s, fill=c, rx=s / 3, ry=s / 3)`
			`elif marker == "e":`
			`s = np.sqrt(s * 2)`
			`return svg.Ellipse(`
			`cx=x,`
			`cy=y,`
			`fill=c,`
			`rx=s,`
			`ry=s / 2,`
			`transform=[svg.Rotate(RGen.random() * 360, x, y)],`
			`)`
			`elif marker == "x":`
			`shift = np.sqrt(s)`
			`scale = np.sqrt(2) / 2`
			`return svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`stroke_linecap="round",`
			`d=[`
			`svg.M(x - shift * scale, y - shift * scale), # / line`
			`svg.L(x + shift * scale, y + shift * scale),`
			`svg.M(x - shift * scale, y + shift * scale),`
			`svg.L(x + shift * scale, y - shift * scale), # / line`
			`],`
			`)`
			`elif marker == "*":`
			`shift = np.sqrt(s)`
			`return [`
			`svg.Path(`
			`stroke=c,`
			`stroke_width=np.sqrt(s) / 4,`
			`stroke_linecap="round",`
			`transform=[svg.Rotate(angle, x, y)],`
			`d=[`
			`svg.M(x - shift, y),`
			`svg.L(x + shift, y),`
			`],`
			`)`
			`for angle in (0, 60, -60)`
			`]`
add posibility for including emojis 2024-10-27 15:42:02 +00:00			`else:`
			`return svg.Use(`
			`href=f"#{marker}",`
			`transform=[svg.Translate(x=x, y=y), svg.Scale(np.sqrt(s) / 100)],`
			`)`
Initial commit 2023-05-18 14:15:37 +00:00

as API 2024-10-27 18:46:19 +00:00			`@app.get("/speckles/")`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`def make_wallpaper(`
			`speckle_colours: str,`
			`density: float = 0.12,`
			`size: float = 3,`
			`fileformat: str = "svg",`
			`orientation: str = "landscape",`
			`filename: str = "",`
			`markers: str = ".",`
			`perlin: bool = True,`
			`):`
			`speckle_colours = speckle_colours.split(",")`
			`background = speckle_colours.pop(0)`
			`if orientation == "portrait":`
			`x, y = (1080, 1920)`
			`elif orientation == "landscape":`
			`x, y = (1920, 1080)`
			`elif "x" in orientation:`
			`resolution = orientation.split("x")`
			`if len(resolution) != 2:`
			`logging.critical("input resolution has more or less than 2 dimensions")`
			`return`
			`x, y = resolution`
			`if all([x.isdigit(), y.isdigit()]):`
			`x, y = int(x), int(y)`
			`else:`
			`return`
			`else:`
			`x, y = (1920, 1080)`
			`speckles_per_colour = int(x / 128 * y / 128 * density / len(markers))`

			`if perlin:`
			`gen = CoordsGenerator(x, y)`

			`elements = [svg.Rect(width=x, height=y, color=background)]`
			`style = svg.Style(`
			`text="\n".join(`
			`[f".c{colour[1:]} {{ fill: {colour}; }}" for colour in speckle_colours]`
			`)`
			`)`
			`elements.append(style)`
			`style = svg.Style(`
			`text="\n".join(`
			`[`
add posibility for including emojis 2024-10-27 15:42:02 +00:00			`f'.s{hex(int(size100))[2:]} {{ font-family: "OpenMoji"; font-size: {int(np.sqrt(size)16)}px; }}'`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`for size in np.logspace(0, size, 10, base=np.exp(2))`
			`]`
			`)`
Initial commit 2023-05-18 14:15:37 +00:00			`)`
working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`elements.append(style)`

add posibility for including emojis 2024-10-27 15:42:02 +00:00			`elements.append(`
			`svg.Defs(`
			`elements=[emoji(marker) for marker in markers if marker not in DEFINED]`
			`)`
			`)`

working with some emojis and card game characters 2024-10-25 20:54:46 +00:00			`for colour, marker, size in itertools.product(`
			`speckle_colours,`
			`markers,`
			`np.logspace(0, size, 10, base=np.exp(2)),`
			`):`
			`if perlin:`
			`xs, ys = gen.pick(speckles_per_colour)`
			`else:`
			`xs, ys = zip(`
			`RGen.random(speckles_per_colour) * x,`
			`RGen.random(speckles_per_colour) * y,`
			`)`
			`elements.extend(`
			`[markertoSVG(marker, x, y, colour, size) for x, y in zip(xs, ys)]`
			`)`

			`content = svg.SVG(width=x, height=y, elements=elements)`
as API 2024-10-27 18:46:19 +00:00			`if filename:`
			`if Path(filename).suffix == ".svg":`
			`with open(filename, "wt") as f:`
			`f.write(content.as_str())`
			`else:`
			`with pyvips.Image.svgload_buffer(content.as_str().encode("utf-8")) as image:`
			`image.write_to_file(filename)`
			`return filename`
			`elif fileformat:`
			`buf = io.BytesIO(content.as_str().encode("utf-8"))`
			`buf.seek(0)`
			`return StreamingResponse(content=buf, media_type=MEDIA_TYPES[fileformat])`
Initial commit 2023-05-18 14:15:37 +00:00

orientation option 2023-07-10 07:14:05 +00:00			`if __name__ == "__main__":`
as API 2024-10-27 18:46:19 +00:00			`uvicorn.run("speckles:app", workers=3, port=8099)`