210 lines
7.8 KiB
Lua
210 lines
7.8 KiB
Lua
---------------------------------------------------------------------------
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-- An implementation of matrices for describing and working with affine
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-- transformations.
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-- @author Uli Schlachter
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-- @copyright 2015 Uli Schlachter
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-- @release @AWESOME_VERSION@
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-- @classmod gears.matrix
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---------------------------------------------------------------------------
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local cairo = require("lgi").cairo
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local debug = require("gears.debug")
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local matrix = {}
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--- Copy a cairo matrix
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-- @param matrix The matrix to copy.
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-- @return A copy of the given cairo matrix.
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function matrix.copy(matrix)
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debug.assert(cairo.Matrix:is_type_of(matrix), "Argument should be a cairo matrix")
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local ret = cairo.Matrix()
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ret:init(matrix.xx, matrix.yx, matrix.xy, matrix.yy, matrix.x0, matrix.y0)
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return ret
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end
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-- Metatable for matrix instances. This is set up near the end of the file.
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local matrix_mt = {}
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--- Create a new matrix instance
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-- @tparam number xx The xx transformation part.
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-- @tparam number yx The yx transformation part.
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-- @tparam number xy The xy transformation part.
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-- @tparam number yy The yy transformation part.
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-- @tparam number x0 The x0 transformation part.
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-- @tparam number y0 The y0 transformation part.
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-- @return A new matrix describing the given transformation.
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function matrix.create(xx, yx, xy, yy, x0, y0)
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return setmetatable({
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xx = xx, xy = xy, x0 = x0,
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yx = yx, yy = yy, y0 = y0
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}, matrix_mt)
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end
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--- Create a new translation matrix
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-- @tparam number x The translation in x direction.
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-- @tparam number y The translation in y direction.
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-- @return A new matrix describing the given transformation.
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function matrix.create_translate(x, y)
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return matrix.create(1, 0, 0, 1, x, y)
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end
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--- Create a new scaling matrix
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-- @tparam number sx The scaling in x direction.
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-- @tparam number sy The scaling in y direction.
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-- @return A new matrix describing the given transformation.
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function matrix.create_scale(sx, sy)
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return matrix.create(sx, 0, 0, sy, 0, 0)
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end
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--- Create a new rotation matrix
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-- @tparam number angle The angle of the rotation in radians.
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-- @return A new matrix describing the given transformation.
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function matrix.create_rotate(angle)
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local c, s = math.cos(angle), math.sin(angle)
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return matrix.create(c, s, -s, c, 0, 0)
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end
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--- Translate this matrix
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-- @tparam number x The translation in x direction.
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-- @tparam number y The translation in y direction.
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-- @return A new matrix describing the new transformation.
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function matrix:translate(x, y)
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return matrix.create_translate(x, y):multiply(self)
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end
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--- Scale this matrix
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-- @tparam number sx The scaling in x direction.
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-- @tparam number sy The scaling in y direction.
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-- @return A new matrix describing the new transformation.
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function matrix:scale(sx, sy)
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return matrix.create_scale(sx, sy):multiply(self)
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end
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--- Rotate this matrix
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-- @tparam number angle The angle of the rotation in radians.
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-- @return A new matrix describing the new transformation.
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function matrix:rotate(angle)
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return matrix.create_rotate(angle):multiply(self)
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end
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--- Invert this matrix
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-- @return A new matrix describing the inverse transformation.
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function matrix:invert()
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-- Beware of math! (I just copied the algorithm from cairo's source code)
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local a, b, c, d, x0, y0 = self.xx, self.yx, self.xy, self.yy, self.x0, self.y0
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local inv_det = 1/(a*d - b*c)
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return matrix.create(inv_det * d, inv_det * -b,
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inv_det * -c, inv_det * a,
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inv_det * (c * y0 - d * x0), inv_det * (b * x0 - a * y0))
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end
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--- Multiply this matrix with another matrix.
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-- The resulting matrix describes a transformation that is equivalent to first
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-- applying this transformation and then the transformation from `other`.
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-- Note that this function can also be called by directly multiplicating two
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-- matrix instances: `a * b == a:multiply(b)`.
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-- @tparam gears.matrix|cairo.Matrix other The other matrix to multiply with.
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-- @return The multiplication result.
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function matrix:multiply(other)
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return matrix.create(self.xx * other.xx + self.yx * other.xy,
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self.xx * other.yx + self.yx * other.yy,
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self.xy * other.xx + self.yy * other.xy,
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self.xy * other.yx + self.yy * other.yy,
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self.x0 * other.xx + self.y0 * other.xy + other.x0,
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self.x0 * other.yx + self.y0 * other.yy + other.y0)
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end
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--- Check if two matrices are equal.
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-- Note that this function cal also be called by directly comparing two matrix
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-- instances: `a == b`.
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-- @tparam gears.matrix|cairo.Matrix other The matrix to compare with.
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-- @return True if this and the other matrix are equal.
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function matrix:equals(other)
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for _, k in pairs{ "xx", "xy", "yx", "yy", "x0", "y0" } do
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if self[k] ~= other[k] then
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return false
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end
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end
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return true
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end
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--- Get a string representation of this matrix
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-- @return A string showing this matrix in column form.
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function matrix:tostring()
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return string.format("[[%g, %g], [%g, %g], [%g, %g]]",
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self.xx, self.yx, self.xy,
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self.yy, self.x0, self.y0)
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end
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--- Transform a distance by this matrix.
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-- The difference to @{matrix:transform_point} is that the translation part of
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-- this matrix is ignored.
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-- @tparam number x The x coordinate of the point.
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-- @tparam number y The y coordinate of the point.
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-- @treturn number The x coordinate of the transformed point.
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-- @treturn number The x coordinate of the transformed point.
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function matrix:transform_distance(x, y)
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return self.xx * x + self.xy * y, self.yx * x + self.yy * y
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end
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--- Transform a point by this matrix.
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-- @tparam number x The x coordinate of the point.
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-- @tparam number y The y coordinate of the point.
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-- @treturn number The x coordinate of the transformed point.
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-- @treturn number The x coordinate of the transformed point.
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function matrix:transform_point(x, y)
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local x, y = self:transform_distance(x, y)
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return self.x0 + x, self.y0 + y
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end
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--- Calculate a bounding rectangle for transforming a rectangle by a matrix.
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-- @tparam number x The x coordinate of the rectangle.
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-- @tparam number y The y coordinate of the rectangle.
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-- @tparam number width The width of the rectangle.
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-- @tparam number height The height of the rectangle.
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-- @treturn number X coordinate of the bounding rectangle.
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-- @treturn number Y coordinate of the bounding rectangle.
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-- @treturn number Width of the bounding rectangle.
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-- @treturn number Height of the bounding rectangle.
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function matrix:transform_rectangle(x, y, width, height)
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-- Transform all four corners of the rectangle
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local x1, y1 = self:transform_point(x, y)
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local x2, y2 = self:transform_point(x, y + height)
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local x3, y3 = self:transform_point(x + width, y + height)
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local x4, y4 = self:transform_point(x + width, y)
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-- Find the extremal points of the result
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local x = math.min(x1, x2, x3, x4)
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local y = math.min(y1, y2, y3, y4)
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local width = math.max(x1, x2, x3, x4) - x
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local height = math.max(y1, y2, y3, y4) - y
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return x, y, width, height
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end
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--- Convert to a cairo matrix
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-- @treturn cairo.Matrix A cairo matrix describing the same transformation.
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function matrix:to_cairo_matrix()
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local ret = cairo.Matrix()
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ret:init(self.xx, self.yx, self.xy, self.yy, self.x0, self.y0)
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return ret
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end
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--- Convert to a cairo matrix
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-- @tparam cairo.Matrix mat A cairo matrix describing the sought transformation
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-- @treturn gears.matrix A matrix instance describing the same transformation.
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function matrix.from_cairo_matrix(mat)
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return matrix.create(mat.xx, mat.yx, mat.xy, mat.yy, mat.x0, mat.y0)
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end
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matrix_mt.__index = matrix
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matrix_mt.__newindex = error
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matrix_mt.__eq = matrix.equals
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matrix_mt.__mul = matrix.multiply
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matrix_mt.__tostring = matrix.tostring
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--- A constant for the identity matrix.
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matrix.identity = matrix.create(1, 0, 0, 1, 0, 0)
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return matrix
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-- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:textwidth=80
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