Title: | Rendering Font into 'data.frame' |
---|---|
Description: | Extract glyph information from font data, and translate the outline curves to flattened paths or tessellated polygons. The converted data is returned as a 'data.frame' in easy-to-plot format. |
Authors: | Hiroaki Yutani [aut, cre] , The authors of the dependency Rust crates [ctb] (see inst/AUTHORS file for details) |
Maintainer: | Hiroaki Yutani <[email protected]> |
License: | MIT + file LICENSE |
Version: | 0.1.8 |
Built: | 2024-12-24 06:14:36 UTC |
Source: | https://github.com/yutannihilation/string2path |
For debugging purposes, extract all font faces on the font database which 'string2path' uses internally.
dump_fontdb()
dump_fontdb()
A tibble()
containing these columns:
The source file of the font face.
The index of the font face within the source.
The font family of the face.
The weight of the face.
The style of the face.
string2path()
converts a text to the paths of the width-less outlines of
each glyph. string2stroke()
converts a text to the paths of the outlines,
with the specified line width, of each glyph. string2fill()
converts a text
to the paths of the filled polygon of each glyph.
string2path( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05 ) string2stroke( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05, line_width = 0.03 ) string2fill( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05 )
string2path( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05 ) string2stroke( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05, line_width = 0.03 ) string2fill( text, font, font_weight = c("normal", "thin", "extra_thin", "light", "medium", "semibold", "bold", "extra_bold", "black"), font_style = c("normal", "italic", "oblique"), tolerance = 5e-05 )
text |
A text to convert to paths. |
font |
A font family (e.g. |
font_weight |
A font weight. |
font_style |
A font style. |
tolerance |
Maximum distance allowed between the curve and its approximation. For more details, please refer to the documentation of the underlying Rust library. |
line_width |
Line width of strokes. |
A tibble()
containing these columns:
x position of the point on the path, scaled to x / line height. The left side of the first glyph is at x = 0.
Y position of the point on the path, scaled to y / line height. The baseline of the first line is at y = 0.
IDs to distinguish the glyphs.
IDs to distinguish the groups of paths.
IDs to distinguish the triangles. string2path()
doesn't contain this column.
available_fonts <- dump_fontdb() if (nrow(available_fonts) > 0) { family <- available_fonts$family[1] weight <- available_fonts$weight[1] style <- available_fonts$style[1] # string2path() converts a text to paths d_path <- string2path("TEXT", family, weight, style) if (nrow(d_path) > 0) { plot(d_path$x, d_path$y) for (p in split(d_path, d_path$path_id)) { lines(p$x, p$y) } } # string2stroke() converts a text to strokes d_stroke <- string2stroke("TEXT", family, weight, style) if (nrow(d_stroke) > 0) { plot(d_stroke$x, d_stroke$y) # The stroke is split into triangles, which can be distinguished by `triangle_id` set.seed(2) for (p in split(d_stroke, d_stroke$triangle_id)) { polygon(p$x, p$y, col = rgb(runif(1), runif(1), runif(1), 0.8)) } } # string2fill() converts a text to filled polygons d_fill <- string2fill("TEXT", family, weight, style) if (nrow(d_fill) > 0) { plot(d_fill$x, d_fill$y) # The polygon is split into triangles, which can be distinguished by `triangle_id` set.seed(2) for (p in split(d_fill, d_fill$triangle_id)) { polygon(p$x, p$y, col = rgb(runif(1), runif(1), runif(1), 0.8)) } } }
available_fonts <- dump_fontdb() if (nrow(available_fonts) > 0) { family <- available_fonts$family[1] weight <- available_fonts$weight[1] style <- available_fonts$style[1] # string2path() converts a text to paths d_path <- string2path("TEXT", family, weight, style) if (nrow(d_path) > 0) { plot(d_path$x, d_path$y) for (p in split(d_path, d_path$path_id)) { lines(p$x, p$y) } } # string2stroke() converts a text to strokes d_stroke <- string2stroke("TEXT", family, weight, style) if (nrow(d_stroke) > 0) { plot(d_stroke$x, d_stroke$y) # The stroke is split into triangles, which can be distinguished by `triangle_id` set.seed(2) for (p in split(d_stroke, d_stroke$triangle_id)) { polygon(p$x, p$y, col = rgb(runif(1), runif(1), runif(1), 0.8)) } } # string2fill() converts a text to filled polygons d_fill <- string2fill("TEXT", family, weight, style) if (nrow(d_fill) > 0) { plot(d_fill$x, d_fill$y) # The polygon is split into triangles, which can be distinguished by `triangle_id` set.seed(2) for (p in split(d_fill, d_fill$triangle_id)) { polygon(p$x, p$y, col = rgb(runif(1), runif(1), runif(1), 0.8)) } } }