curve.lineEnd()

curve.lineEnd() Indicates the end of the current line segment.

curve.areaStart()

curve.areaStart() Indicates the start of a new area segment. Each area segment consists of exactly two line segments: the topline, followed by the baseline, with the baseline points in reverse order.

curve.areaEnd()

curve.areaEnd() Indicates the end of the current area segment.

csv2tsv

csv2tsv [options…] [file] Equivalent to dsv2dsv, but the output delimiter defaults to the tab character (\t).

csv2json

csv2json [options…] [file] Equivalent to dsv2json.

craig.parallel()

craig.parallel([parallel]) Defaults to 0°.

continuous.ticks()

continuous.ticks([count]) Returns approximately count representative values from the scale’s domain. If count is not specified, it defaults to 10. The returned tick values are uniformly spaced, have human-readable values (such as multiples of powers of 10), and are guaranteed to be within the extent of the domain. Ticks are often used to display reference lines, or tick marks, in conjunction with the visualized data. The specified count is only a hint; the scale may return more or fewer values

continuous.tickFormat()

continuous.tickFormat([count[, specifier]]) Returns a number format function suitable for displaying a tick value, automatically computing the appropriate precision based on the fixed interval between tick values. The specified count should have the same value as the count that is used to generate the tick values. An optional specifier allows a custom format where the precision of the format is automatically set by the scale as appropriate for the tick interval. For example, to format percen

continuous.rangeRound()

continuous.rangeRound([range]) Sets the scale’s range to the specified array of values while also setting the scale’s interpolator to interpolateRound. This is a convenience method equivalent to: continuous .range(range) .interpolate(d3.interpolateRound); The rounding interpolator is sometimes useful for avoiding antialiasing artifacts, though also consider the shape-rendering “crispEdges” styles. Note that this interpolator can only be used with numeric ranges.

continuous.range()

continuous.range([range]) If range is specified, sets the scale’s range to the specified array of values. The array must contain two or more elements. Unlike the domain, elements in the given array need not be numbers; any value that is supported by the underlying interpolator will work, though note that numeric ranges are required for invert. If range is not specified, returns a copy of the scale’s current range. See continuous.interpolate for more examples.