zig-raylib/src/main.zig

const std = @import("std");
const rl = @import("raylib");
const rg = @import("raygui");
const pr = @import("primitives.zig");

var prng = std.rand.DefaultPrng.init(124346556);


const rand = prng.random();

fn randMinMaxFloat(min:f32,max:f32) f32 {
    var r1 = rand.float(f32);
    r1 = 2*(r1 - 0.5);//-0.5..0.5
    return (@abs(min)+@abs(max))/2 * r1;
}

test "random" {
    var seed:u64 = undefined;
    var r1 :f32 = undefined;
    try std.posix.getrandom(std.mem.asBytes(&seed));

    prng = std.rand.DefaultPrng.init(seed);
    while(true) {
        r1 = randMinMaxFloat(-10,10);
        //std.debug.print("randMinMaxFloat:{}\n",.{r1});
        if (r1 > 8 or r1 < -8 ) {
            std.debug.print("Greater:{}\n",.{r1});
        }
    }
}

const Particle = struct {
    const Self = @This();
    position : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},
    velocity : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},
    acceleration : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},
    lifespan : u8 = 0,
    pub fn new(self:Self) void {
        _ = self;
    }
    pub fn update(self:*Self) void {
        self.velocity.add(self.acceleration);
        self.position.add(self.velocity);

        if (self.lifespan > 0) {
            self.lifespan -= 1;
        } else {
            const xrnr = randMinMaxFloat(-1,1);
            const yrnr = randMinMaxFloat(-1,1);

            std.debug.print("rngx:{}\nyrng:{}\n",.{xrnr,yrnr});
            self.lifespan = rand.intRangeAtMost(u8,1,100);
            self.acceleration.a.x = xrnr;
            self.acceleration.a.y = yrnr;
            self.position.a.x = 0;
            self.position.a.y = 0;
            self.velocity.a.x = 0;
            self.velocity.a.y = 0;
            self.position.a.color.r = rand.intRangeAtMost(u8,0,255);
            self.position.a.color.g = rand.intRangeAtMost(u8,0,255);
            self.position.a.color.b = rand.intRangeAtMost(u8,0,255);
        }

    }
};

pub fn main() anyerror!void {
    // Initialization
    //--------------------------------------------------------------------------------------
    const screenWidth = 800;
    const screenHeight = 450;
    const rect2 = rl.Rectangle{ .x = @as(f32, @floatFromInt(10)), .y = @as(f32, @floatFromInt(10)), .width = @as(f32, @floatFromInt(300)), .height = @as(f32, @floatFromInt(100)) };
    var msg_res : i32=-1;
    var state : i32=-1;
    
    var seed:u64 = undefined;
    try std.posix.getrandom(std.mem.asBytes(&seed));

    prng = std.rand.DefaultPrng.init(seed);
    var xrnr : f32 = 0;
    var yrnr : f32 = 0;

    var posx : i32 = 0;
    var posy : i32 = 0;

    var p1 : [100]Particle = undefined;
    for (&p1) |*p| {
        xrnr = rand.float(f32);
        yrnr = rand.float(f32);
        p.* = Particle{.velocity = .{.a = .{.x = 5,.y = 1}},.acceleration = .{.a = .{.x=xrnr,.y=yrnr}}};
    }

    rl.initWindow(screenWidth, screenHeight, "raylib-zig [core] example - basic window");
    defer rl.closeWindow(); // Close window and OpenGL context

    rl.setTargetFPS(60); // Set our game to run at 60 frames-per-second

    while (!rl.windowShouldClose()) { // Detect window close button or ESC key
        rl.beginDrawing();
        defer rl.endDrawing();

        rl.clearBackground(rl.Color{.r=181,
                                    .g =177,
                                    .b =154,
                                    .a = 255,
        });

        if(state != 0){ 
            msg_res = rg.guiMessageBox(rect2, "Title", "question?", "Nice;Cool");
            if(msg_res > -1){
                state = msg_res;
            }
            rl.clearBackground(rl.Color.white);
            switch(state){
                1 => {
                        rl.drawText("1", 190, 200, 20, rl.Color.red);
                },
                2 => {
                        rl.drawText("2", 190, 200, 20, rl.Color.red);
                },
                    else =>{},
            }
        }
        for (&p1) |*p| {
            p.update();
            if(p.position.a.x >= -(screenWidth/2)){
                posx = @intFromFloat(screenWidth / 2 + p.position.a.x);
            } else {
                posx  = 0;
            }
            if(p.position.a.y >= -(screenHeight/2)){
                posy = @intFromFloat(screenHeight / 2 + p.position.a.y);
            } else {
                posy = 0;
            }
            rl.drawCircle(posx,posy,5,rl.Color{.r=p.position.a.color.r,.g=p.position.a.color.g,.b=p.position.a.color.b,.a=255});
        }


    }
}

test "simple test" {
    var list = std.ArrayList(i32).init(std.testing.allocator);
    defer list.deinit(); // try commenting this out and see if zig detects the memory leak!
    try list.append(42);
    try std.testing.expectEqual(@as(i32, 42), list.pop());
}
Init 2024-11-08 09:34:08 +00:00			`const std = @import("std");`
			`const rl = @import("raylib");`
			`const rg = @import("raygui");`
sdf 2024-11-08 15:00:57 +00:00			`const pr = @import("primitives.zig");`

sdaf 2024-11-15 12:36:32 +00:00			`var prng = std.rand.DefaultPrng.init(124346556);`


			`const rand = prng.random();`

			`fn randMinMaxFloat(min:f32,max:f32) f32 {`
			`var r1 = rand.float(f32);`
			`r1 = 2*(r1 - 0.5);//-0.5..0.5`
			`return (@abs(min)+@abs(max))/2 * r1;`
			`}`

			`test "random" {`
			`var seed:u64 = undefined;`
			`var r1 :f32 = undefined;`
			`try std.posix.getrandom(std.mem.asBytes(&seed));`

			`prng = std.rand.DefaultPrng.init(seed);`
			`while(true) {`
			`r1 = randMinMaxFloat(-10,10);`
			`//std.debug.print("randMinMaxFloat:{}\n",.{r1});`
			`if (r1 > 8 or r1 < -8 ) {`
			`std.debug.print("Greater:{}\n",.{r1});`
			`}`
			`}`
			`}`

			`const Particle = struct {`
sdf 2024-11-08 15:00:57 +00:00			`const Self = @This();`
			`position : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},`
			`velocity : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},`
			`acceleration : pr.Vec = .{.a = .{.x=0,.y=0,.z=0}},`
sdaf 2024-11-15 12:36:32 +00:00			`lifespan : u8 = 0,`
			`pub fn new(self:Self) void {`
sdf 2024-11-08 15:00:57 +00:00			`_ = self;`
			`}`
sdaf 2024-11-15 12:36:32 +00:00			`pub fn update(self:*Self) void {`
			`self.velocity.add(self.acceleration);`
			`self.position.add(self.velocity);`

			`if (self.lifespan > 0) {`
			`self.lifespan -= 1;`
			`} else {`
			`const xrnr = randMinMaxFloat(-1,1);`
			`const yrnr = randMinMaxFloat(-1,1);`

			`std.debug.print("rngx:{}\nyrng:{}\n",.{xrnr,yrnr});`
			`self.lifespan = rand.intRangeAtMost(u8,1,100);`
			`self.acceleration.a.x = xrnr;`
			`self.acceleration.a.y = yrnr;`
			`self.position.a.x = 0;`
			`self.position.a.y = 0;`
			`self.velocity.a.x = 0;`
			`self.velocity.a.y = 0;`
			`self.position.a.color.r = rand.intRangeAtMost(u8,0,255);`
			`self.position.a.color.g = rand.intRangeAtMost(u8,0,255);`
			`self.position.a.color.b = rand.intRangeAtMost(u8,0,255);`
			`}`

sdf 2024-11-08 15:00:57 +00:00			`}`
			`};`
Init 2024-11-08 09:34:08 +00:00
			`pub fn main() anyerror!void {`
			`// Initialization`
			`//--------------------------------------------------------------------------------------`
			`const screenWidth = 800;`
			`const screenHeight = 450;`
			`const rect2 = rl.Rectangle{ .x = @as(f32, @floatFromInt(10)), .y = @as(f32, @floatFromInt(10)), .width = @as(f32, @floatFromInt(300)), .height = @as(f32, @floatFromInt(100)) };`
			`var msg_res : i32=-1;`
			`var state : i32=-1;`
sdaf 2024-11-15 12:36:32 +00:00
			`var seed:u64 = undefined;`
			`try std.posix.getrandom(std.mem.asBytes(&seed));`

			`prng = std.rand.DefaultPrng.init(seed);`
			`var xrnr : f32 = 0;`
			`var yrnr : f32 = 0;`
sdf 2024-11-08 15:00:57 +00:00
sdaf 2024-11-15 12:36:32 +00:00			`var posx : i32 = 0;`
			`var posy : i32 = 0;`

			`var p1 : [100]Particle = undefined;`
			`for (&p1) \|*p\| {`
			`xrnr = rand.float(f32);`
			`yrnr = rand.float(f32);`
			`p.* = Particle{.velocity = .{.a = .{.x = 5,.y = 1}},.acceleration = .{.a = .{.x=xrnr,.y=yrnr}}};`
			`}`
sdf 2024-11-08 15:00:57 +00:00
Init 2024-11-08 09:34:08 +00:00			`rl.initWindow(screenWidth, screenHeight, "raylib-zig [core] example - basic window");`
			`defer rl.closeWindow(); // Close window and OpenGL context`

			`rl.setTargetFPS(60); // Set our game to run at 60 frames-per-second`

			`while (!rl.windowShouldClose()) { // Detect window close button or ESC key`
sdf 2024-11-08 15:00:57 +00:00			`rl.beginDrawing();`
			`defer rl.endDrawing();`
Init 2024-11-08 09:34:08 +00:00
sdf 2024-11-08 15:00:57 +00:00			`rl.clearBackground(rl.Color{.r=181,`
			`.g =177,`
			`.b =154,`
			`.a = 255,`
			`});`
Init 2024-11-08 09:34:08 +00:00
			`if(state != 0){`
sdf 2024-11-08 15:00:57 +00:00			`msg_res = rg.guiMessageBox(rect2, "Title", "question?", "Nice;Cool");`
Init 2024-11-08 09:34:08 +00:00			`if(msg_res > -1){`
			`state = msg_res;`
			`}`
			`rl.clearBackground(rl.Color.white);`
			`switch(state){`
			`1 => {`
			`rl.drawText("1", 190, 200, 20, rl.Color.red);`
			`},`
			`2 => {`
			`rl.drawText("2", 190, 200, 20, rl.Color.red);`
			`},`
			`else =>{},`
			`}`
			`}`
sdaf 2024-11-15 12:36:32 +00:00			`for (&p1) \|*p\| {`
			`p.update();`
			`if(p.position.a.x >= -(screenWidth/2)){`
			`posx = @intFromFloat(screenWidth / 2 + p.position.a.x);`
			`} else {`
			`posx = 0;`
			`}`
			`if(p.position.a.y >= -(screenHeight/2)){`
			`posy = @intFromFloat(screenHeight / 2 + p.position.a.y);`
			`} else {`
			`posy = 0;`
			`}`
			`rl.drawCircle(posx,posy,5,rl.Color{.r=p.position.a.color.r,.g=p.position.a.color.g,.b=p.position.a.color.b,.a=255});`
			`}`
Init 2024-11-08 09:34:08 +00:00

			`}`
			`}`

			`test "simple test" {`
			`var list = std.ArrayList(i32).init(std.testing.allocator);`
			`defer list.deinit(); // try commenting this out and see if zig detects the memory leak!`
			`try list.append(42);`
			`try std.testing.expectEqual(@as(i32, 42), list.pop());`
			`}`