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Added some electrical components

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This commit is contained in:
Loewe1000 2025-04-17 02:30:29 +02:00
parent 2bb7e3b5a9
commit 77cda42a72
10 changed files with 982 additions and 0 deletions
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9
src/electrical.typ Normal file
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#import "elements/electrical/capacitor.typ": capacitor
#import "elements/electrical/resistor.typ": resistor
#import "elements/electrical/voltage-source.typ": voltage-source
#import "elements/electrical/ac-source.typ": ac-source
#import "elements/electrical/ammeter.typ": ammeter
#import "elements/electrical/voltmeter.typ": voltmeter
#import "elements/electrical/inductor.typ": inductor
#import "elements/electrical/switch.typ": switch
#import "elements/electrical/lamp.typ": lamp

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src/elements/electrical/ac-source.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id,
tl,
tr,
br,
bl,
fill,
stroke,
vertical: false,
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let cx = x0 + w / 2
let cy = y0 + h / 2
let r = calc.min(w, h) / 2
let line = draw.line.with(stroke: stroke)
let circle = draw.circle.with(stroke: stroke, fill: fill)
let f = draw.group(
name: id,
{
// Kreis und Tilde-Symbol
circle((cx, cy), radius: r)
draw.content((cx, cy), [$tilde$], anchor: "center")
// Verbindungslinien zu den Ports
if vertical {
// Vertikale Quelle
let p_start = (cx, y0) // North port
let p_end = (cx, y1) // South port
let circle_top = (cx, cy - r) // Top point of the circle
let circle_bottom = (cx, cy + r) // Bottom point of the circle
line(p_start, circle_top) // Line from North port to top of circle
line(circle_bottom, p_end) // Line from bottom of circle to South port
} else {
// Horizontale Quelle
let p_start = (x0, cy) // West port
let p_end = (x1, cy) // East port
let circle_left = (cx - r, cy) // Left point of the circle
let circle_right = (cx + r, cy) // Right point of the circle
line(p_start, circle_right) // Line from West port to left of circle
line(circle_left, p_end) // Line from right of circle to East port
}
},
)
return (f, tl, tr, br, bl)
}
#let ac-source(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false,
),
) = {
let ports = if vertical {
(
north: ((id: "0"),),
south: ((id: "1"),),
)
} else {
(
west: ((id: "0"),),
east: ((id: "1"),),
)
}
element.elmt(
draw-shape: draw-shape.with(vertical: vertical),
x: x,
y: y,
w: w,
h: h,
name: name,
name-anchor: name-anchor,
ports: ports,
fill: fill,
stroke: stroke,
id: id,
debug: debug,
)
}

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src/elements/electrical/ammeter.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
vertical: false
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let cx = x0 + w / 2
let cy = y0 + h / 2
let r = calc.min(w, h) / 3
let line = draw.line.with(stroke: stroke)
let circle = draw.circle.with(stroke: stroke, fill: fill)
let f = draw.group(name: id, {
// Kreis und 'A'-Symbol
circle((cx, cy), radius: r)
draw.content((cx, cy), [A], anchor: "center")
// Verbindungslinien zu den Ports
if vertical {
// Vertikales Amperemeter
let p_start = (cx, y0) // North port
let p_end = (cx, y1) // South port
let circle_top = (cx, cy - r) // Top point of the circle
let circle_bottom = (cx, cy + r) // Bottom point of the circle
line(p_start, circle_top) // Line from North port to top of circle
line(circle_bottom, p_end) // Line from bottom of circle to South port
} else {
// Horizontales Amperemeter
let p_start = (x0, cy) // West port
let p_end = (x1, cy) // East port
let circle_left = (cx - r, cy) // Left point of the circle
let circle_right = (cx + r, cy) // Right point of the circle
line(p_start, circle_right) // Line from West port to left of circle
line(circle_left, p_end) // Line from right of circle to East port
}
})
return (f, tl, tr, br, bl)
}
#let ammeter(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical
),
x: x, y: y, w: w, h: h, name: name, name-anchor: name-anchor,
ports: ports, fill: fill, stroke: stroke, id: id, debug: debug
)
}

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src/elements/electrical/capacitor.typ Normal file
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#import "@preview/cetz:0.3.2": draw, coordinate
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
vertical: false,
gap: 0.2,
scales: (100%, 100%),
symbols: (none, none)
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let (o0, s0) = if vertical {(y0, h)} else {(x0, w)}
let (o1, s1) = if vertical {(x0, w)} else {(y0, h)}
let m1 = o1 + s1 / 2
let pt(i, j) = if vertical {
(j, i)
} else {
(i, j)
}
let size0 = s1 * scales.first() / 100%
let size1 = s1 * scales.last() / 100%
if type(gap) == ratio {
gap = gap / 100%
} else {
gap = gap / calc.abs(s0)
}
let r0 = 0.5 - gap / 2
let r1 = 0.5 + gap / 2
// Coordinates in (main axis, secondary axis) format
let p0 = pt(o0, m1)
let p1 = pt(o0 + r0 * s0, m1)
let p2 = pt(o0 + r1 * s0, m1)
let p3 = pt(o0 + s0, m1)
let p4 = pt(o0 + r0 * s0, m1 - size0 / 2)
let p5 = pt(o0 + r0 * s0, m1 + size0 / 2)
let p6 = pt(o0 + r1 * s0, m1 - size1 / 2)
let p7 = pt(o0 + r1 * s0, m1 + size1 / 2)
let line = draw.line.with(stroke: stroke)
let f = draw.group(name: id, {
line(p0, p1)
line(p2, p3)
line(p4, p5)
line(p6, p7)
if symbols.first() != none {
draw.content(
p1,
symbols.first(),
anchor: if vertical {"south-west"} else {"south-east"},
padding: 2pt
)
}
if symbols.last() != none {
draw.content(
p2,
symbols.last(),
anchor: if vertical {"north-west"} else {"south-west"},
padding: 2pt
)
}
})
return (f, tl, tr, br, bl)
}
/// Draws a capacitor
///
/// #examples.capacitor
/// For other parameters description, see #doc-ref("element.elmt")
/// - vertical (bool): Whether the element is vertical or horizontal.
/// - If false, port 0 is placed on the west side and port 1 on the east.\
/// - If true, they are on the north, respectively the south sides
/// - gap (number, ratio): The gap between both sides
/// - if it is a number (int or float), it is interpreted as an absolute canvas-unit length
/// - if it is a ratio, it is interpreted as proportional to the capacitor's length (width if horizontal, height if vertical)
/// - scales (array): A pair of ratios, the sizes of the sides relative to the capacitor's height (width if vertical).
/// - symbols (array): A pair of content or strings (or none values) to attach on the sides of the capacitor
#let capacitor(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
gap: 0.2,
scales: (100%, 100%),
symbols: (none, none),
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical,
gap: gap,
scales: scales,
symbols: symbols
),
x: x,
y: y,
w: w,
h: h,
name: name,
name-anchor: name-anchor,
ports: ports,
fill: fill,
stroke: stroke,
id: id,
debug: debug
)
}

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src/elements/electrical/inductor.typ Normal file
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#import "@preview/cetz:0.3.2": draw,
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id,
tl,
tr,
br,
bl,
fill,
stroke,
vertical: false,
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let cx = x0 + w / 2
let cy = y0 + h / 2
let line = draw.line.with(stroke: stroke)
let arc = draw.arc.with(stroke: stroke)
let loops = 4 // Number of half-circle loops
let f = draw.group(
name: id,
{
if vertical {
// Vertical Inductor
let p_start = (cx, y0)
let p_end = (cx, y1)
let coil_margin = 0.1 * h // Margin for connection lines
let coil_start_y = y0 + coil_margin
let coil_end_y = y1 - coil_margin
let coil_length = coil_end_y - coil_start_y
let loop_height = coil_length / loops
let loop_radius = w / 2 // Radius of the arcs depends on the element's width
let first_loop_start_y = coil_start_y
let last_loop_end_y = coil_end_y
// Draw connection lines (ending at the start/end of the coil loops)
line(p_start, (cx, first_loop_start_y))
line((cx, last_loop_end_y), p_end)
// Draw loops
for i in range(loops) {
let loop_center_y = coil_start_y + loop_height * i + loop_height / 2
arc(
(cx, loop_center_y),
start: -90deg,
delta: 180deg,
radius: loop_radius,
)
}
} else {
// Horizontal Inductor
let p_start = (x0, cy)
let p_end = (x1, cy)
let coil_margin = 0.1 * w // Margin for connection lines
let coil_start_x = x0 + coil_margin
let coil_end_x = x1 - coil_margin
let coil_length = coil_end_x - coil_start_x
let loop_width = coil_length / loops
let loop_radius = h / 2 // Radius of the arcs depends on the element's height
let first_loop_start_x = coil_start_x
let last_loop_end_x = coil_end_x
draw.merge-path({
// Draw connection lines (ending at the start/end of the coil loops)
line(p_start, (first_loop_start_x, cy))
// Draw loops
for i in range(loops) {
let loop_center_x = coil_start_x + loop_width * i + loop_width / 2
arc(
(loop_center_x, cy),
start: 0deg,
delta: 180deg,
radius: loop_radius / 2.5,
anchor: "origin",
)
}
line((last_loop_end_x, cy), p_end)
})
}
},
)
return (f, tl, tr, br, bl)
}
#let inductor(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false,
),
) = {
let ports = if vertical {
(
north: ((id: "0"),),
south: ((id: "1"),),
)
} else {
(
west: ((id: "0"),),
east: ((id: "1"),),
)
}
element.elmt(
draw-shape: draw-shape.with(vertical: vertical),
x: x,
y: y,
w: w,
h: h,
name: name,
name-anchor: name-anchor,
ports: ports,
fill: fill,
stroke: stroke,
id: id,
debug: debug,
)
}

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src/elements/electrical/lamp.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
vertical: false
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let cx = x0 + w / 2
let cy = y0 + h / 2
let r = calc.min(w, h) / 3
let line = draw.line.with(stroke: stroke)
let circle = draw.circle.with(stroke: stroke, fill: fill)
let f = draw.group(name: id, {
// Kreis für die Glühlampe
circle((cx, cy), radius: r, name: "lamp-circle")
// X-Symbol im Kreis für die Glühlampe
let r_inner = r * 0.7 // Scale factor for the 'X' size
line("lamp-circle.north-west", "lamp-circle.south-east")
line("lamp-circle.north-east", "lamp-circle.south-west")
// Verbindungslinien zu den Ports
if vertical {
// Vertikale Lampe
let p_start = (cx, y0) // North port
let p_end = (cx, y1) // South port
let circle_top = (cx, cy - r) // Top point of the circle
let circle_bottom = (cx, cy + r) // Bottom point of the circle
line(p_start, circle_top) // Line from North port to top of circle
line(circle_bottom, p_end) // Line from bottom of circle to South port
} else {
// Horizontale Lampe
let p_start = (x0, cy) // West port
let p_end = (x1, cy) // East port
let circle_left = (cx - r, cy) // Left point of the circle
let circle_right = (cx + r, cy) // Right point of the circle
line(p_end, circle_left) // Line from West port to left of circle
line(circle_right, p_start) // Line from right of circle to East port
}
})
return (f, tl, tr, br, bl)
}
#let lamp(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical
),
x: x, y: y, w: w, h: h, name: name, name-anchor: name-anchor,
ports: ports, fill: fill, stroke: stroke, id: id, debug: debug
)
}

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src/elements/electrical/resistor.typ Normal file
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#import "@preview/cetz:0.3.2": draw, coordinate
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
zigzags: 6,
vertical: false
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let (o0, s0) = if vertical {(y0, h)} else {(x0, w)}
let (o1, s1) = if vertical {(x0, w)} else {(y0, h)}
let m1 = o1 + s1 / 2
let pt(i, j) = if vertical {
(j, i)
} else {
(i, j)
}
let p0 = pt(o0, m1)
let p1 = pt(o0 + 0.2 * s0, m1)
let p2 = pt(o0 + 0.8 * s0, m1)
let p3 = pt(o0 + s0, m1)
// Draw rectangle (IEC standard) if zigzags is none
if zigzags == none {
let rect_height = s1 / 2
let rect_top = m1 - rect_height / 2
let rect_bottom = m1 + rect_height / 2
let p4 = pt(o0 + 0.2 * s0, rect_top)
let p5 = pt(o0 + 0.8 * s0, rect_bottom)
let f = draw.group(name: id, {
draw.line(p0, p1)
draw.line(p2, p3)
draw.rect(p4, p5, stroke: stroke, fill: fill)
})
return (f, tl, tr, br, bl)
}
// Draw zigzags (ANSI standard) if zigzags is an integer
else if type(zigzags) == int {
let pts = (p0, p1)
for i in range(zigzags) {
let r = ((i+0.5) / zigzags * 0.6 + 0.2)
let pos = pt(o0 + r * s0, o1 + s1 * calc.rem(i, 2))
pts.push(pos)
}
pts += (p2, p3)
let f = draw.group(name: id, {
draw.line(..pts, stroke: stroke)
})
return (f, tl, tr, br, bl)
}
// Fallback or error? For now, just return nothing or raise an error.
// Let's return an empty group for now.
return (draw.group(name: id, {}), tl, tr, br, bl)
}
/// Draws a resistor
///
/// #examples.resistor
/// For other parameters description, see #doc-ref("element.elmt")
/// - vertical (bool): Whether the element is vertical or horizontal. If false, port 0 is placed on the west side and port 1 on the east. If true, they are on the north, respectively the south sides
/// - zigzags (int, none): Number of zigzags for the ANSI style symbol. If `none` (default), a rectangle (IEC style) is drawn.
#let resistor(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
zigzags: none, // Default to IEC style (rectangle)
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical,
zigzags: zigzags
),
x: x,
y: y,
w: w,
h: h,
name: name,
name-anchor: name-anchor,
ports: ports,
fill: fill,
stroke: stroke,
id: id,
debug: debug
)
}

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src/elements/electrical/switch.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id,
tl,
tr,
br,
bl,
fill,
stroke,
vertical: false,
closed: false,
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let line = draw.line.with(stroke: stroke)
let circle = draw.circle.with(stroke: stroke, fill: white) // Use white fill for visibility
let terminal_radius = 0.05 * calc.min(w, h) // Small radius for terminals
let cx = x0 + w / 2 // Center x
let cy = y0 + h / 2 // Center y
let f = draw.group(
name: id,
{
if vertical {
// Vertical Switch
let p0 = (cx, y0) // North port
let p1 = (cx, y1) // South port
let terminal0 = (cx, y0 + 0.2 * h) // Upper terminal position
let terminal1 = (cx, y1 - 0.2 * h) // Lower terminal position
// Draw connection lines (ending at the terminals)
line(p0, terminal0) // Line from North port to upper terminal
line(terminal1, p1) // Line from lower terminal to South port
// Draw terminals (circles)
circle(terminal0, radius: terminal_radius, name: "left-connector")
circle(terminal1, radius: terminal_radius, name: "right-connector")
// Draw switch lever
let lever_end
let lever_start
if closed {
lever_start = "left-connector.north"
lever_end = "right-connector.south"
} else {
lever_start = "left-connector.135deg"
lever_end = (rel: (-45deg, calc.abs(y1 - y0) * 0.6), to: "left-connector.45deg")
}
line(lever_start, lever_end)
} else {
// Horizontal Switch
let p0 = (x0, cy) // West port
let p1 = (x1, cy) // East port
let terminal0 = (x0 + 0.2 * w, cy) // Left terminal position
let terminal1 = (x1 - 0.2 * w, cy) // Right terminal position
// Draw connection lines (ending at the terminals)
line(p0, terminal0) // Line from West port to left terminal
line(terminal1, p1) // Line from right terminal to East port
// Draw terminals (circles)
circle(terminal0, radius: terminal_radius, name: "left-connector")
circle(terminal1, radius: terminal_radius, name: "right-connector")
// Draw switch lever
let lever_end
let lever_start
if closed {
lever_start = "left-connector.west"
lever_end = "right-connector.east"
} else {
lever_start = "left-connector.225deg"
lever_end = (rel: (45deg, calc.abs(x1 - x0) * 0.6), to: "left-connector.45deg")
}
line(lever_start, lever_end)
}
},
)
return (f, tl, tr, br, bl)
}
#let switch(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
closed: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false,
),
) = {
let ports = if vertical {
(
north: ((id: "0"),),
south: ((id: "1"),),
)
} else {
(
west: ((id: "0"),),
east: ((id: "1"),),
)
}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical,
closed: closed,
),
x: x,
y: y,
w: w,
h: h,
name: name,
name-anchor: name-anchor,
ports: ports,
fill: fill,
stroke: stroke,
id: id,
debug: debug,
)
}

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src/elements/electrical/voltage-source.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
vertical: false
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let line = draw.line.with(stroke: stroke)
let cx = x0 + w / 2
let cy = y0 + h / 2
let f = draw.group(name: id, {
if vertical {
// Vertical voltage source (battery symbol) - Centered
let p0 = (cx, y0) // North port (+)
let p1 = (cx, y1) // South port (-)
let gap = 0.1 * h // Gap between the two plates
let plate_width = 0.6 * w // Width of the plates
// Center the plates around cy
let plate0_y = cy - gap / 2 // Position of the long plate (+)
let plate1_y = cy + gap / 2 // Position of the short plate (-)
// Create a thicker stroke for the short plate
let thicker_stroke = (paint: stroke.paint, thickness: stroke.thickness + 1pt)
// Draw plates
line((cx - plate_width / 2, plate0_y), (cx + plate_width / 2, plate0_y)) // Long plate (+)
line((cx - plate_width / 3, plate1_y), (cx + plate_width / 3, plate1_y)) // Short plate (-)
// Draw connection lines (ending at the plates)
line(p0, (cx, plate0_y)) // Line from North port to top plate
line((cx, plate1_y), p1) // Line from bottom plate to South port
} else {
// Horizontal voltage source (battery symbol) - Centered
let p0 = (x0, cy) // West port (+)
let p1 = (x1, cy) // East port (-)
let gap = 0.1 * w // Gap between the two plates
let plate_height = 0.6 * h // Height of the plates
// Center the plates around cx
let plate0_x = cx - gap / 2 // Position of the long plate (+)
let plate1_x = cx + gap / 2 // Position of the short plate (-)
// Create a thicker stroke for the short plate
let thicker_stroke = (paint: stroke.paint, thickness: stroke.thickness + 1pt)
// Draw plates
line((plate0_x, cy - plate_height / 2), (plate0_x, cy + plate_height / 2)) // Long plate (+)
line((plate1_x, cy - plate_height / 3), (plate1_x, cy + plate_height / 3)) // Short plate (-)
// Draw connection lines (ending at the plates)
line(p0, (plate0_x, cy)) // Line from West port to left plate
line((plate1_x, cy), p1) // Line from right plate to East port
}
})
return (f, tl, tr, br, bl)
}
#let voltage-source(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical
),
x: x, y: y, w: w, h: h, name: name, name-anchor: name-anchor,
ports: ports, fill: fill, stroke: stroke, id: id, debug: debug
)
}

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src/elements/electrical/voltmeter.typ Normal file
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#import "@preview/cetz:0.3.2": draw
#import "../element.typ"
#import "../ports.typ": add-port
#let draw-shape(
id, tl, tr, br, bl,
fill, stroke,
vertical: false
) = {
let (x0, y0) = tl
let (x1, y1) = br
let w = x1 - x0
let h = y1 - y0
let cx = x0 + w / 2
let cy = y0 + h / 2
let r = calc.min(w, h) / 3
let line = draw.line.with(stroke: stroke)
let circle = draw.circle.with(stroke: stroke, fill: fill)
let f = draw.group(name: id, {
// Kreis und 'V'-Symbol
circle((cx, cy), radius: r)
draw.content((cx, cy), [V], anchor: "center")
// Verbindungslinien zu den Ports
if vertical {
// Vertikales Voltmeter
let p_start = (cx, y0) // North port
let p_end = (cx, y1) // South port
let circle_top = (cx, cy - r) // Top point of the circle
let circle_bottom = (cx, cy + r) // Bottom point of the circle
line(p_start, circle_top) // Line from North port to top of circle
line(circle_bottom, p_end) // Line from bottom of circle to South port
} else {
// Horizontales Voltmeter
let p_start = (x0, cy) // West port
let p_end = (x1, cy) // East port
let circle_left = (cx - r, cy) // Left point of the circle
let circle_right = (cx + r, cy) // Right point of the circle
line(p_start, circle_right) // Line from West port to left of circle
line(circle_left, p_end) // Line from right of circle to East port
}
})
return (f, tl, tr, br, bl)
}
#let voltmeter(
x: none,
y: none,
w: none,
h: none,
name: none,
name-anchor: "center",
vertical: false,
fill: none,
stroke: black + 1pt,
id: "",
debug: (
ports: false
)
) = {
let ports = if vertical {(
north: ((id: "0"),),
south: ((id: "1"),)
)} else {(
west: ((id: "0"),),
east: ((id: "1"),)
)}
element.elmt(
draw-shape: draw-shape.with(
vertical: vertical
),
x: x, y: y, w: w, h: h, name: name, name-anchor: name-anchor,
ports: ports, fill: fill, stroke: stroke, id: id, debug: debug
)
}