ludum-dare-22/scripts/d3d_draw_cone/d3d_draw_cone.gml

/// @description Draws a simple 3D cone.
/// @param x1 The initial x coordinate of the cone.
/// @param y1 The initial y coordinate of the cone.
/// @param z1 The initial z coordinate of the cone.
/// @param x2 The opposite x coordinate of the cone.
/// @param y2 The opposite y coordinate of the cone. 
/// @param z2 The opposite z coordinate of the cone.
/// @param tex The id of the texture to use (-1 for no texture)
/// @param hrepeat Amount of horizontal repetitions for the texture.
/// @param vrepeat Amount of vertical repetitions for the texture.
/// @param closed Sets whether to close (true) the bottom of the cone or not (false).
/// @param steps How many steps are used to make the cone "round" (typically 24)
/// @returns 
function d3d_draw_cone(argument0, argument1, argument2, argument3, argument4, argument5, argument6, argument7, argument8, argument9, argument10) {

	var __x1 = argument0;
	var __y1 = argument1;
	var __z1 = argument2;
	var __x2 = argument3;
	var __y2 = argument4;
	var __z2 = argument5;
	var __tex = argument6;
	var __hrepeat = argument7;
	var __vrepeat = argument8;
	var __closed = argument9;
	var __steps = argument10;

	if (__steps < 3)
	{
		__steps = 3;
	}

	if (__steps > 128)
	{
		__steps = 128;
	}

	// Create sin and cos tables
	var __cc;
	var __ss;

	__cc[__steps] = 0;
	__ss[__steps] = 0;

	var __i;
	for(__i = 0; __i <= __steps; __i++)
	{
		var __rad = (__i * 2.0 * pi) / __steps;
		__cc[__i] = cos(__rad);
		__ss[__i] = sin(__rad);
	}

	var __mx = (__x2 + __x1) / 2;
	var __my = (__y2 + __y1) / 2;
	var __rx = (__x2 - __x1) / 2;
	var __ry = (__y2 - __y1) / 2;

	var __oldrep = gpu_get_texrepeat();
	gpu_set_texrepeat(true)	

	d3d_primitive_begin_texture(pr_trianglestrip, __tex);

	for(__i = 0; __i <= __steps; __i++)
	{
		d3d_vertex_normal_texture(__mx, __my, __z2, 0, 0, 1, __hrepeat * __i / __steps, __vrepeat);
		d3d_vertex_normal_texture(__mx + __cc[__i]*__rx, __my + __ss[__i]*__ry, __z1, __cc[__i] , __ss[__i] ,0 , __hrepeat * __i / __steps, 0);
	}

	d3d_primitive_end();

	if (__closed == true)
	{
		d3d_primitive_begin_texture(pr_trianglefan, __tex);
		d3d_vertex_normal_texture(__mx, __my, __z1, 0, 0, -1, 0, 0);
		for(__i = __steps; __i >= 0; __i--)
		{
			d3d_vertex_normal_texture(__mx+__cc[__i]*__rx, __my+__ss[__i]*__ry, __z1, 0, 0, -1, 0, 0);		
		}
		d3d_primitive_end();
	}

	gpu_set_texrepeat(__oldrep);


}
decompiled old GM8 executable and converted project to GMS2 format 2021-06-28 18:44:09 -07:00			`/// @description Draws a simple 3D cone.`
			`/// @param x1 The initial x coordinate of the cone.`
			`/// @param y1 The initial y coordinate of the cone.`
			`/// @param z1 The initial z coordinate of the cone.`
			`/// @param x2 The opposite x coordinate of the cone.`
			`/// @param y2 The opposite y coordinate of the cone.`
			`/// @param z2 The opposite z coordinate of the cone.`
			`/// @param tex The id of the texture to use (-1 for no texture)`
			`/// @param hrepeat Amount of horizontal repetitions for the texture.`
			`/// @param vrepeat Amount of vertical repetitions for the texture.`
			`/// @param closed Sets whether to close (true) the bottom of the cone or not (false).`
			`/// @param steps How many steps are used to make the cone "round" (typically 24)`
			`/// @returns`
			`function d3d_draw_cone(argument0, argument1, argument2, argument3, argument4, argument5, argument6, argument7, argument8, argument9, argument10) {`

			`var __x1 = argument0;`
			`var __y1 = argument1;`
			`var __z1 = argument2;`
			`var __x2 = argument3;`
			`var __y2 = argument4;`
			`var __z2 = argument5;`
			`var __tex = argument6;`
			`var __hrepeat = argument7;`
			`var __vrepeat = argument8;`
			`var __closed = argument9;`
			`var __steps = argument10;`

			`if (__steps < 3)`
			`{`
			`__steps = 3;`
			`}`

			`if (__steps > 128)`
			`{`
			`__steps = 128;`
			`}`

			`// Create sin and cos tables`
			`var __cc;`
			`var __ss;`

			`__cc[__steps] = 0;`
			`__ss[__steps] = 0;`

			`var __i;`
			`for(__i = 0; __i <= __steps; __i++)`
			`{`
			`var __rad = (__i * 2.0 * pi) / __steps;`
			`__cc[__i] = cos(__rad);`
			`__ss[__i] = sin(__rad);`
			`}`

			`var __mx = (__x2 + __x1) / 2;`
			`var __my = (__y2 + __y1) / 2;`
			`var __rx = (__x2 - __x1) / 2;`
			`var __ry = (__y2 - __y1) / 2;`

			`var __oldrep = gpu_get_texrepeat();`
			`gpu_set_texrepeat(true)`

			`d3d_primitive_begin_texture(pr_trianglestrip, __tex);`

			`for(__i = 0; __i <= __steps; __i++)`
			`{`
			`d3d_vertex_normal_texture(__mx, __my, __z2, 0, 0, 1, __hrepeat * __i / __steps, __vrepeat);`
			`d3d_vertex_normal_texture(__mx + __cc[__i]__rx, __my + __ss[__i]__ry, __z1, __cc[__i] , __ss[__i] ,0 , __hrepeat * __i / __steps, 0);`
			`}`

			`d3d_primitive_end();`

			`if (__closed == true)`
			`{`
			`d3d_primitive_begin_texture(pr_trianglefan, __tex);`
			`d3d_vertex_normal_texture(__mx, __my, __z1, 0, 0, -1, 0, 0);`
			`for(__i = __steps; __i >= 0; __i--)`
			`{`
			`d3d_vertex_normal_texture(__mx+__cc[__i]__rx, __my+__ss[__i]__ry, __z1, 0, 0, -1, 0, 0);`
			`}`
			`d3d_primitive_end();`
			`}`

			`gpu_set_texrepeat(__oldrep);`


			`}`