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vec2.hfa @ bdfc032

ADTarm-ehast-experimentalenumforall-pointer-decayjacob/cs343-translationnew-ast-unique-exprpthread-emulationqualifiedEnum

Last change on this file since bdfc032 was 7d61d1c, checked in by Thierry Delisle <tdelisle@…>, 5 years ago
Fixed returning address to local object bug
Property mode set to `100644`
File size: 5.6 KB

Rev	Line
[9ec35db]	1	#pragma once
	2
[e752e4e]	3	#include <iostream.hfa>
[3376ec9]	4	#include "vec.hfa"
	5
	6	forall (otype T) {
[9ec35db]	7	struct vec2 {
	8	T x, y;
	9	};
	10	}
	11
[3376ec9]	12	forall (otype T) {
	13	static inline {
[9ec35db]	14
	15	void ?{}(vec2(T)& v, T x, T y) {
	16	v.[x, y] = [x, y];
	17	}
[1dd929e]	18
	19	forall(\| zero_assign(T))
[9ec35db]	20	void ?{}(vec2(T)& vec, zero_t) with (vec) {
	21	x = y = 0;
	22	}
[1dd929e]	23
[9ec35db]	24	void ?{}(vec2(T)& vec, T val) with (vec) {
	25	x = y = val;
	26	}
[1dd929e]	27
[9ec35db]	28	void ?{}(vec2(T)& vec, vec2(T) other) with (vec) {
	29	[x,y] = other.[x,y];
	30	}
	31
	32	void ?=?(vec2(T)& vec, vec2(T) other) with (vec) {
	33	[x,y] = other.[x,y];
	34	}
[1dd929e]	35	forall(\| zero_assign(T))
[9ec35db]	36	void ?=?(vec2(T)& vec, zero_t) with (vec) {
	37	x = y = 0;
	38	}
	39
	40	// Primitive mathematical operations
	41
[250dbae]	42	// -
[1dd929e]	43	forall(\| subtract(T)) {
[250dbae]	44	vec2(T) ?-?(vec2(T) u, vec2(T) v) {
[9ec35db]	45	return [u.x - v.x, u.y - v.y];
	46	}
	47	vec2(T)& ?-=?(vec2(T)& u, vec2(T) v) {
	48	u = u - v;
	49	return u;
	50	}
[3376ec9]	51	}
[7799f79]	52	forall(\| negate(T))
[e752e4e]	53	vec2(T) -?(vec2(T) v) with (v) {
[9ec35db]	54	return [-x, -y];
	55	}
[7799f79]	56
	57	forall(\| { T --?(T&); }) {
	58	vec2(T)& --?(vec2(T)& v) {
	59	--v.x;
	60	--v.y;
	61	return v;
	62	}
[7d61d1c]	63	vec2(T) ?--(vec2(T)& v) {
[7799f79]	64	vec2(T) copy = v;
	65	--v;
	66	return copy;
	67	}
[1dd929e]	68	}
[9ec35db]	69
[250dbae]	70	// +
[1dd929e]	71	forall(\| add(T)) {
[250dbae]	72	vec2(T) ?+?(vec2(T) u, vec2(T) v) {
[9ec35db]	73	return [u.x + v.x, u.y + v.y];
	74	}
	75	vec2(T)& ?+=?(vec2(T)& u, vec2(T) v) {
	76	u = u + v;
	77	return u;
	78	}
[1dd929e]	79	}
[9ec35db]	80
[7799f79]	81	forall(\| { T ++?(T&); }) {
	82	vec2(T)& ++?(vec2(T)& v) {
	83	++v.x;
	84	++v.y;
	85	return v;
	86	}
[7d61d1c]	87	vec2(T) ?++(vec2(T)& v) {
[7799f79]	88	vec2(T) copy = v;
	89	++v;
	90	return copy;
	91	}
	92	}
	93
[250dbae]	94	// *
[1dd929e]	95	forall(\| multiply(T)) {
[250dbae]	96	vec2(T) ?*?(vec2(T) v, T scalar) with (v) {
[9ec35db]	97	return [x * scalar, y * scalar];
	98	}
[250dbae]	99	vec2(T) ?*?(T scalar, vec2(T) v) {
[9ec35db]	100	return v * scalar;
	101	}
[7799f79]	102	vec2(T) ?*?(vec2(T) u, vec2(T) v) {
	103	return [u.x * v.x, u.y * v.y];
	104	}
[9ec35db]	105	vec2(T)& ?*=?(vec2(T)& v, T scalar) {
	106	v = v * scalar;
	107	return v;
	108	}
[7799f79]	109	vec2(T) ?*=?(vec2(T)& u, vec2(T) v) {
	110	u = u * v;
	111	return u;
	112	}
[1dd929e]	113	}
[9ec35db]	114
[250dbae]	115	// /
[1dd929e]	116	forall(\| divide(T)) {
[9ec35db]	117	vec2(T) ?/?(vec2(T) v, T scalar) with (v) {
	118	return [x / scalar, y / scalar];
	119	}
[7799f79]	120	vec2(T) ?/?(vec2(T) u, vec2(T) v) {
	121	return [u.x / v.x, u.y / v.y];
	122	}
[250dbae]	123	vec2(T)& ?/=?(vec2(T)& v, T scalar) {
[9ec35db]	124	v = v / scalar;
	125	return v;
	126	}
[7799f79]	127	vec2(T) ?/=?(vec2(T)& u, vec2(T) v) {
	128	u = u / v;
	129	return u;
	130	}
	131	}
	132
[250dbae]	133	// %
[7799f79]	134	forall(\| { T ?%?(T,T); }) {
	135	vec2(T) ?%?(vec2(T) v, T scalar) with (v) {
	136	return [x % scalar, y % scalar];
	137	}
	138	vec2(T)& ?%=?(vec2(T)& u, T scalar) {
	139	u = u % scalar;
	140	return u;
	141	}
	142	vec2(T) ?%?(vec2(T) u, vec2(T) v) {
	143	return [u.x % v.x, u.y % v.y];
	144	}
	145	vec2(T)& ?%=?(vec2(T)& u, vec2(T) v) {
	146	u = u % v;
	147	return u;
	148	}
	149	}
	150
[250dbae]	151	// &
[7799f79]	152	forall(\| { T ?&?(T,T); }) {
	153	vec2(T) ?&?(vec2(T) v, T scalar) with (v) {
	154	return [x & scalar, y & scalar];
	155	}
	156	vec2(T)& ?&=?(vec2(T)& u, T scalar) {
	157	u = u & scalar;
	158	return u;
	159	}
	160	vec2(T) ?&?(vec2(T) u, vec2(T) v) {
	161	return [u.x & v.x, u.y & v.y];
	162	}
	163	vec2(T)& ?&=?(vec2(T)& u, vec2(T) v) {
	164	u = u & v;
	165	return u;
	166	}
	167	}
	168
[250dbae]	169	// \|
[7799f79]	170	forall(\| { T ?\|?(T,T); }) {
	171	vec2(T) ?\|?(vec2(T) v, T scalar) with (v) {
	172	return [x \| scalar, y \| scalar];
	173	}
	174	vec2(T)& ?\|=?(vec2(T)& u, T scalar) {
	175	u = u \| scalar;
	176	return u;
	177	}
	178	vec2(T) ?\|?(vec2(T) u, vec2(T) v) {
	179	return [u.x \| v.x, u.y \| v.y];
	180	}
	181	vec2(T)& ?\|=?(vec2(T)& u, vec2(T) v) {
	182	u = u \| v;
	183	return u;
	184	}
	185	}
	186
[250dbae]	187	// ^
[7799f79]	188	forall(\| { T ?^?(T,T); }) {
	189	vec2(T) ?^?(vec2(T) v, T scalar) with (v) {
	190	return [x ^ scalar, y ^ scalar];
	191	}
	192	vec2(T)& ?^=?(vec2(T)& u, T scalar) {
	193	u = u ^ scalar;
	194	return u;
	195	}
	196	vec2(T) ?^?(vec2(T) u, vec2(T) v) {
	197	return [u.x ^ v.x, u.y ^ v.y];
	198	}
	199	vec2(T)& ?^=?(vec2(T)& u, vec2(T) v) {
	200	u = u ^ v;
	201	return u;
	202	}
	203	}
	204
[250dbae]	205	// <<
[7799f79]	206	forall(\| { T ?<<?(T,T); }) {
	207	vec2(T) ?<<?(vec2(T) v, T scalar) with (v) {
	208	return [x << scalar, y << scalar];
	209	}
	210	vec2(T)& ?<<=?(vec2(T)& u, T scalar) {
	211	u = u << scalar;
	212	return u;
	213	}
	214	vec2(T) ?<<?(vec2(T) u, vec2(T) v) {
	215	return [u.x << v.x, u.y << v.y];
	216	}
	217	vec2(T)& ?<<=?(vec2(T)& u, vec2(T) v) {
	218	u = u << v;
	219	return u;
	220	}
	221	}
	222
[250dbae]	223	// >>
[7799f79]	224	forall(\| { T ?>>?(T,T); }) {
	225	vec2(T) ?>>?(vec2(T) v, T scalar) with (v) {
	226	return [x >> scalar, y >> scalar];
	227	}
	228	vec2(T)& ?>>=?(vec2(T)& u, T scalar) {
	229	u = u >> scalar;
	230	return u;
	231	}
	232	vec2(T) ?>>?(vec2(T) u, vec2(T) v) {
	233	return [u.x >> v.x, u.y >> v.y];
	234	}
	235	vec2(T)& ?>>=?(vec2(T)& u, vec2(T) v) {
	236	u = u >> v;
	237	return u;
	238	}
	239	}
	240
[250dbae]	241	// ~
[7799f79]	242	forall(\| { T ~?(T); })
	243	vec2(T) ~?(vec2(T) v) with (v) {
	244	return [~v.x, ~v.y];
[1dd929e]	245	}
	246
[250dbae]	247	// relational
[1dd929e]	248	forall(\| equality(T)) {
[9ec35db]	249	bool ?==?(vec2(T) u, vec2(T) v) with (u) {
	250	return x == v.x && y == v.y;
	251	}
	252	bool ?!=?(vec2(T) u, vec2(T) v) {
	253	return !(u == v);
	254	}
[1dd929e]	255	}
[9ec35db]	256
[3376ec9]	257	// Geometric functions
[1dd929e]	258	forall(\| add(T) \| multiply(T))
[9ec35db]	259	T dot(vec2(T) u, vec2(T) v) {
	260	return u.x * v.x + u.y * v.y;
	261	}
	262
[3376ec9]	263	} // static inline
[9ec35db]	264	}
[e752e4e]	265
	266	forall(dtype ostype, otype T \| writeable(T, ostype)) {
	267	ostype & ?\|?(ostype & os, vec2(T) v) with (v) {
	268	return os \| '<' \| x \| ',' \| y \| '>';
	269	}
	270	void ?\|?(ostype & os, vec2(T) v ) with (v) {
	271	(ostype &)(os \| v); ends(os);
	272	}
	273	}

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