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proc.h
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3620 lines (3348 loc) · 99.1 KB
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//
// Begin blending mode (alpha, additive, multiplied, subtract, custom)
//
static int cmd_beginblendmode(int argc, slib_par_t *params, var_t *retval) {
auto mode = get_param_int(argc, params, 0, 0);
BeginBlendMode(mode);
return 1;
}
//
// Setup canvas (framebuffer) to start drawing
//
static int cmd_begindrawing(int argc, slib_par_t *params, var_t *retval) {
BeginDrawing();
return 1;
}
//
// Begin 2D mode with custom camera (2D)
//
static int cmd_beginmode2d(int argc, slib_par_t *params, var_t *retval) {
auto camera = get_camera_2d(argc, params, 0);
BeginMode2D(camera);
return 1;
}
//
// Begin 3D mode with custom camera (3D)
//
static int cmd_beginmode3d(int argc, slib_par_t *params, var_t *retval) {
auto camera = get_camera_3d(argc, params, 0);
BeginMode3D(camera);
return 1;
}
//
// Begin scissor mode (define screen area for following drawing)
//
static int cmd_beginscissormode(int argc, slib_par_t *params, var_t *retval) {
auto x = get_param_int(argc, params, 0, 0);
auto y = get_param_int(argc, params, 1, 0);
auto width = get_param_int(argc, params, 2, 0);
auto height = get_param_int(argc, params, 3, 0);
BeginScissorMode(x, y, width, height);
return 1;
}
//
// Begin custom shader drawing
//
static int cmd_beginshadermode(int argc, slib_par_t *params, var_t *retval) {
auto shader = get_param_shader(argc, params, 0);
BeginShaderMode(shader);
return 1;
}
//
// Begin drawing to render texture
//
static int cmd_begintexturemode(int argc, slib_par_t *params, var_t *retval) {
int result;
int target_id = get_render_texture_id(argc, params, 0, retval);
if (target_id != -1) {
BeginTextureMode(_renderMap.at(target_id));
result = 1;
} else {
result = 0;
}
return result;
}
//
// Set background color (framebuffer clear color)
//
static int cmd_clearbackground(int argc, slib_par_t *params, var_t *retval) {
auto color = get_param_color(argc, params, 0);
ClearBackground(color);
return 1;
}
//
// Clear window configuration state flags
//
static int cmd_clearwindowstate(int argc, slib_par_t *params, var_t *retval) {
auto flags = get_param_int(argc, params, 0, 0);
ClearWindowState(flags);
return 1;
}
//
// Close the audio device and context
//
static int cmd_closeaudiodevice(int argc, slib_par_t *params, var_t *retval) {
CloseAudioDevice();
return 1;
}
//
// Close window and unload OpenGL context
//
static int cmd_closewindow(int argc, slib_par_t *params, var_t *retval) {
CloseWindow();
return 1;
}
//
// Disables cursor (lock cursor)
//
static int cmd_disablecursor(int argc, slib_par_t *params, var_t *retval) {
DisableCursor();
return 1;
}
//
// Disable waiting for events on EndDrawing(), automatic events polling
//
static int cmd_disableeventwaiting(int argc, slib_par_t *params, var_t *retval) {
DisableEventWaiting();
return 1;
}
//
// Draw a billboard texture
//
static int cmd_drawbillboard(int argc, slib_par_t *params, var_t *retval) {
int result;
int texture_id = get_texture_id(argc, params, 1, retval);
if (texture_id != -1) {
auto camera = get_camera_3d(argc, params, 0);
auto position = get_param_vec3(argc, params, 2);
auto scale = get_param_num(argc, params, 3, 0);
auto tint = get_param_color(argc, params, 4);
DrawBillboard(camera, _textureMap.at(texture_id), position, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a billboard texture defined by source and rotation
//
static int cmd_drawbillboardpro(int argc, slib_par_t *params, var_t *retval) {
int result;
int texture_id = get_texture_id(argc, params, 1, retval);
if (texture_id != -1) {
auto camera = get_camera_3d(argc, params, 0);
auto source = get_param_rect(argc, params, 2);
auto position = get_param_vec3(argc, params, 3);
auto up = get_param_vec3(argc, params, 4);
auto size = get_param_vec2(argc, params, 5);
auto origin = get_param_vec2(argc, params, 6);
auto rotation = get_param_num(argc, params, 7, 0);
auto tint = get_param_color(argc, params, 8);
DrawBillboardPro(camera, _textureMap.at(texture_id), source, position, up, size, origin, rotation, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a billboard texture defined by source
//
static int cmd_drawbillboardrec(int argc, slib_par_t *params, var_t *retval) {
int result;
int texture_id = get_texture_id(argc, params, 1, retval);
if (texture_id != -1) {
auto camera = get_camera_3d(argc, params, 0);
auto source = get_param_rect(argc, params, 2);
auto position = get_param_vec3(argc, params, 3);
auto size = get_param_vec2(argc, params, 4);
auto tint = get_param_color(argc, params, 5);
DrawBillboardRec(camera, _textureMap.at(texture_id), source, position, size, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw bounding box (wires)
//
static int cmd_drawboundingbox(int argc, slib_par_t *params, var_t *retval) {
auto box = get_param_bounding_box(argc, params, 0);
auto color = get_param_color(argc, params, 1);
DrawBoundingBox(box, color);
return 1;
}
//
// Draw a capsule with the center of its sphere caps at startPos and endPos
//
static int cmd_drawcapsule(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec3(argc, params, 0);
auto endPos = get_param_vec3(argc, params, 1);
auto radius = get_param_num(argc, params, 2, 0);
auto slices = get_param_int(argc, params, 3, 0);
auto rings = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCapsule(startPos, endPos, radius, slices, rings, color);
return 1;
}
//
// Draw capsule wireframe with the center of its sphere caps at startPos and endPos
//
static int cmd_drawcapsulewires(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec3(argc, params, 0);
auto endPos = get_param_vec3(argc, params, 1);
auto radius = get_param_num(argc, params, 2, 0);
auto slices = get_param_int(argc, params, 3, 0);
auto rings = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCapsuleWires(startPos, endPos, radius, slices, rings, color);
return 1;
}
//
// Draw a color-filled circle
//
static int cmd_drawcircle(int argc, slib_par_t *params, var_t *retval) {
auto centerX = get_param_int(argc, params, 0, 0);
auto centerY = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawCircle(centerX, centerY, radius, color);
return 1;
}
//
// Draw a circle in 3D world space
//
static int cmd_drawcircle3d(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec3(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto rotationAxis = get_param_vec3(argc, params, 2);
auto rotationAngle = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawCircle3D(center, radius, rotationAxis, rotationAngle, color);
return 1;
}
//
// Draw a gradient-filled circle
//
static int cmd_drawcirclegradient(int argc, slib_par_t *params, var_t *retval) {
auto centerX = get_param_int(argc, params, 0, 0);
auto centerY = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto inner = get_param_color(argc, params, 3);
auto outer = get_param_color(argc, params, 4);
DrawCircleGradient(centerX, centerY, radius, inner, outer);
return 1;
}
//
// Draw circle outline
//
static int cmd_drawcirclelines(int argc, slib_par_t *params, var_t *retval) {
auto centerX = get_param_int(argc, params, 0, 0);
auto centerY = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawCircleLines(centerX, centerY, radius, color);
return 1;
}
//
// Draw circle outline (Vector version)
//
static int cmd_drawcirclelinesv(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawCircleLinesV(center, radius, color);
return 1;
}
//
// Draw a piece of a circle
//
static int cmd_drawcirclesector(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto startAngle = get_param_num(argc, params, 2, 0);
auto endAngle = get_param_num(argc, params, 3, 0);
auto segments = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCircleSector(center, radius, startAngle, endAngle, segments, color);
return 1;
}
//
// Draw circle sector outline
//
static int cmd_drawcirclesectorlines(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto startAngle = get_param_num(argc, params, 2, 0);
auto endAngle = get_param_num(argc, params, 3, 0);
auto segments = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCircleSectorLines(center, radius, startAngle, endAngle, segments, color);
return 1;
}
//
// Draw a color-filled circle (Vector version)
//
static int cmd_drawcirclev(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawCircleV(center, radius, color);
return 1;
}
//
// Draw cube
//
static int cmd_drawcube(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto width = get_param_num(argc, params, 1, 0);
auto height = get_param_num(argc, params, 2, 0);
auto length = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawCube(position, width, height, length, color);
return 1;
}
//
// Draw cube (Vector version)
//
static int cmd_drawcubev(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto size = get_param_vec3(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawCubeV(position, size, color);
return 1;
}
//
// Draw cube wires
//
static int cmd_drawcubewires(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto width = get_param_num(argc, params, 1, 0);
auto height = get_param_num(argc, params, 2, 0);
auto length = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawCubeWires(position, width, height, length, color);
return 1;
}
//
// Draw cube wires (Vector version)
//
static int cmd_drawcubewiresv(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto size = get_param_vec3(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawCubeWiresV(position, size, color);
return 1;
}
//
// Draw a cylinder/cone
//
static int cmd_drawcylinder(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto radiusTop = get_param_num(argc, params, 1, 0);
auto radiusBottom = get_param_num(argc, params, 2, 0);
auto height = get_param_num(argc, params, 3, 0);
auto slices = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCylinder(position, radiusTop, radiusBottom, height, slices, color);
return 1;
}
//
// Draw a cylinder with base at startPos and top at endPos
//
static int cmd_drawcylinderex(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec3(argc, params, 0);
auto endPos = get_param_vec3(argc, params, 1);
auto startRadius = get_param_num(argc, params, 2, 0);
auto endRadius = get_param_num(argc, params, 3, 0);
auto sides = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCylinderEx(startPos, endPos, startRadius, endRadius, sides, color);
return 1;
}
//
// Draw a cylinder/cone wires
//
static int cmd_drawcylinderwires(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto radiusTop = get_param_num(argc, params, 1, 0);
auto radiusBottom = get_param_num(argc, params, 2, 0);
auto height = get_param_num(argc, params, 3, 0);
auto slices = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCylinderWires(position, radiusTop, radiusBottom, height, slices, color);
return 1;
}
//
// Draw a cylinder wires with base at startPos and top at endPos
//
static int cmd_drawcylinderwiresex(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec3(argc, params, 0);
auto endPos = get_param_vec3(argc, params, 1);
auto startRadius = get_param_num(argc, params, 2, 0);
auto endRadius = get_param_num(argc, params, 3, 0);
auto sides = get_param_int(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawCylinderWiresEx(startPos, endPos, startRadius, endRadius, sides, color);
return 1;
}
//
// Draw ellipse
//
static int cmd_drawellipse(int argc, slib_par_t *params, var_t *retval) {
auto centerX = get_param_int(argc, params, 0, 0);
auto centerY = get_param_int(argc, params, 1, 0);
auto radiusH = get_param_num(argc, params, 2, 0);
auto radiusV = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawEllipse(centerX, centerY, radiusH, radiusV, color);
return 1;
}
//
// Draw ellipse outline
//
static int cmd_drawellipselines(int argc, slib_par_t *params, var_t *retval) {
auto centerX = get_param_int(argc, params, 0, 0);
auto centerY = get_param_int(argc, params, 1, 0);
auto radiusH = get_param_num(argc, params, 2, 0);
auto radiusV = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawEllipseLines(centerX, centerY, radiusH, radiusV, color);
return 1;
}
//
// Draw current FPS
//
static int cmd_drawfps(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
DrawFPS(posX, posY);
return 1;
}
//
// Draw a grid (centered at (0, 0, 0))
//
static int cmd_drawgrid(int argc, slib_par_t *params, var_t *retval) {
auto slices = get_param_int(argc, params, 0, 0);
auto spacing = get_param_num(argc, params, 1, 0);
DrawGrid(slices, spacing);
return 1;
}
//
// Draw a line
//
static int cmd_drawline(int argc, slib_par_t *params, var_t *retval) {
auto startPosX = get_param_int(argc, params, 0, 0);
auto startPosY = get_param_int(argc, params, 1, 0);
auto endPosX = get_param_int(argc, params, 2, 0);
auto endPosY = get_param_int(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawLine(startPosX, startPosY, endPosX, endPosY, color);
return 1;
}
//
// Draw a line in 3D world space
//
static int cmd_drawline3d(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec3(argc, params, 0);
auto endPos = get_param_vec3(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawLine3D(startPos, endPos, color);
return 1;
}
//
// Draw line segment cubic-bezier in-out interpolation
//
static int cmd_drawlinebezier(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec2(argc, params, 0);
auto endPos = get_param_vec2(argc, params, 1);
auto thick = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawLineBezier(startPos, endPos, thick, color);
return 1;
}
//
// Draw a line (using triangles/quads)
//
static int cmd_drawlineex(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec2(argc, params, 0);
auto endPos = get_param_vec2(argc, params, 1);
auto thick = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawLineEx(startPos, endPos, thick, color);
return 1;
}
//
// Draw lines sequence (using gl lines)
//
static int cmd_drawlinestrip(int argc, slib_par_t *params, var_t *retval) {
auto points = (Vector2 *)get_param_vec2_array(argc, params, 0);
auto pointCount = get_param_int(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawLineStrip(points, pointCount, color);
return 1;
}
//
// Draw a line (using gl lines)
//
static int cmd_drawlinev(int argc, slib_par_t *params, var_t *retval) {
auto startPos = get_param_vec2(argc, params, 0);
auto endPos = get_param_vec2(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawLineV(startPos, endPos, color);
return 1;
}
//
// Draw a model (with texture if set)
//
static int cmd_drawmodel(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto scale = get_param_num(argc, params, 2, 0);
auto tint = get_param_color(argc, params, 3);
DrawModel(_modelMap.at(model_id), position, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a model with extended parameters
//
static int cmd_drawmodelex(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto rotationAxis = get_param_vec3(argc, params, 2);
auto rotationAngle = get_param_num(argc, params, 3, 0);
auto scale = get_param_vec3(argc, params, 4);
auto tint = get_param_color(argc, params, 5);
DrawModelEx(_modelMap.at(model_id), position, rotationAxis, rotationAngle, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a model as points
//
static int cmd_drawmodelpoints(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto scale = get_param_num(argc, params, 2, 0);
auto tint = get_param_color(argc, params, 3);
DrawModelPoints(_modelMap.at(model_id), position, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a model as points with extended parameters
//
static int cmd_drawmodelpointsex(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto rotationAxis = get_param_vec3(argc, params, 2);
auto rotationAngle = get_param_num(argc, params, 3, 0);
auto scale = get_param_vec3(argc, params, 4);
auto tint = get_param_color(argc, params, 5);
DrawModelPointsEx(_modelMap.at(model_id), position, rotationAxis, rotationAngle, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a model wires (with texture if set)
//
static int cmd_drawmodelwires(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto scale = get_param_num(argc, params, 2, 0);
auto tint = get_param_color(argc, params, 3);
DrawModelWires(_modelMap.at(model_id), position, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a model wires (with texture if set) with extended parameters
//
static int cmd_drawmodelwiresex(int argc, slib_par_t *params, var_t *retval) {
int result;
int model_id = get_model_id(argc, params, 0, retval);
if (model_id != -1) {
auto position = get_param_vec3(argc, params, 1);
auto rotationAxis = get_param_vec3(argc, params, 2);
auto rotationAngle = get_param_num(argc, params, 3, 0);
auto scale = get_param_vec3(argc, params, 4);
auto tint = get_param_color(argc, params, 5);
DrawModelWiresEx(_modelMap.at(model_id), position, rotationAxis, rotationAngle, scale, tint);
result = 1;
} else {
result = 0;
}
return result;
}
//
// Draw a pixel using geometry [Can be slow, use with care]
//
static int cmd_drawpixel(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawPixel(posX, posY, color);
return 1;
}
//
// Draw a pixel using geometry (Vector version) [Can be slow, use with care]
//
static int cmd_drawpixelv(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec2(argc, params, 0);
auto color = get_param_color(argc, params, 1);
DrawPixelV(position, color);
return 1;
}
//
// Draw a plane XZ
//
static int cmd_drawplane(int argc, slib_par_t *params, var_t *retval) {
auto centerPos = get_param_vec3(argc, params, 0);
auto size = get_param_vec2(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawPlane(centerPos, size, color);
return 1;
}
//
// Draw a point in 3D space, actually a small line
//
static int cmd_drawpoint3d(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec3(argc, params, 0);
auto color = get_param_color(argc, params, 1);
DrawPoint3D(position, color);
return 1;
}
//
// Draw a regular polygon (Vector version)
//
static int cmd_drawpoly(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto sides = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto rotation = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawPoly(center, sides, radius, rotation, color);
return 1;
}
//
// Draw a polygon outline of n sides
//
static int cmd_drawpolylines(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto sides = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto rotation = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawPolyLines(center, sides, radius, rotation, color);
return 1;
}
//
// Draw a polygon outline of n sides with extended parameters
//
static int cmd_drawpolylinesex(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto sides = get_param_int(argc, params, 1, 0);
auto radius = get_param_num(argc, params, 2, 0);
auto rotation = get_param_num(argc, params, 3, 0);
auto lineThick = get_param_num(argc, params, 4, 0);
auto color = get_param_color(argc, params, 5);
DrawPolyLinesEx(center, sides, radius, rotation, lineThick, color);
return 1;
}
//
// Draw a ray line
//
static int cmd_drawray(int argc, slib_par_t *params, var_t *retval) {
auto ray = get_param_ray(argc, params, 0);
auto color = get_param_color(argc, params, 1);
DrawRay(ray, color);
return 1;
}
//
// Draw a color-filled rectangle
//
static int cmd_drawrectangle(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
auto width = get_param_int(argc, params, 2, 0);
auto height = get_param_int(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawRectangle(posX, posY, width, height, color);
return 1;
}
//
// Draw a gradient-filled rectangle with custom vertex colors
//
static int cmd_drawrectanglegradientex(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto topLeft = get_param_color(argc, params, 1);
auto bottomLeft = get_param_color(argc, params, 2);
auto topRight = get_param_color(argc, params, 3);
auto bottomRight = get_param_color(argc, params, 4);
DrawRectangleGradientEx(rec, topLeft, bottomLeft, topRight, bottomRight);
return 1;
}
//
// Draw a horizontal-gradient-filled rectangle
//
static int cmd_drawrectanglegradienth(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
auto width = get_param_int(argc, params, 2, 0);
auto height = get_param_int(argc, params, 3, 0);
auto left = get_param_color(argc, params, 4);
auto right = get_param_color(argc, params, 5);
DrawRectangleGradientH(posX, posY, width, height, left, right);
return 1;
}
//
// Draw a vertical-gradient-filled rectangle
//
static int cmd_drawrectanglegradientv(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
auto width = get_param_int(argc, params, 2, 0);
auto height = get_param_int(argc, params, 3, 0);
auto top = get_param_color(argc, params, 4);
auto bottom = get_param_color(argc, params, 5);
DrawRectangleGradientV(posX, posY, width, height, top, bottom);
return 1;
}
//
// Draw rectangle outline
//
static int cmd_drawrectanglelines(int argc, slib_par_t *params, var_t *retval) {
auto posX = get_param_int(argc, params, 0, 0);
auto posY = get_param_int(argc, params, 1, 0);
auto width = get_param_int(argc, params, 2, 0);
auto height = get_param_int(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawRectangleLines(posX, posY, width, height, color);
return 1;
}
//
// Draw rectangle outline with extended parameters
//
static int cmd_drawrectanglelinesex(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto lineThick = get_param_num(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawRectangleLinesEx(rec, lineThick, color);
return 1;
}
//
// Draw a color-filled rectangle with pro parameters
//
static int cmd_drawrectanglepro(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto origin = get_param_vec2(argc, params, 1);
auto rotation = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawRectanglePro(rec, origin, rotation, color);
return 1;
}
//
// Draw a color-filled rectangle
//
static int cmd_drawrectanglerec(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto color = get_param_color(argc, params, 1);
DrawRectangleRec(rec, color);
return 1;
}
//
// Draw rectangle with rounded edges
//
static int cmd_drawrectanglerounded(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto roundness = get_param_num(argc, params, 1, 0);
auto segments = get_param_int(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawRectangleRounded(rec, roundness, segments, color);
return 1;
}
//
// Draw rectangle lines with rounded edges
//
static int cmd_drawrectangleroundedlines(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto roundness = get_param_num(argc, params, 1, 0);
auto segments = get_param_int(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawRectangleRoundedLines(rec, roundness, segments, color);
return 1;
}
//
// Draw rectangle with rounded edges outline
//
static int cmd_drawrectangleroundedlinesex(int argc, slib_par_t *params, var_t *retval) {
auto rec = get_param_rect(argc, params, 0);
auto roundness = get_param_num(argc, params, 1, 0);
auto segments = get_param_int(argc, params, 2, 0);
auto lineThick = get_param_num(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawRectangleRoundedLinesEx(rec, roundness, segments, lineThick, color);
return 1;
}
//
// Draw a color-filled rectangle (Vector version)
//
static int cmd_drawrectanglev(int argc, slib_par_t *params, var_t *retval) {
auto position = get_param_vec2(argc, params, 0);
auto size = get_param_vec2(argc, params, 1);
auto color = get_param_color(argc, params, 2);
DrawRectangleV(position, size, color);
return 1;
}
//
// Draw ring
//
static int cmd_drawring(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto innerRadius = get_param_num(argc, params, 1, 0);
auto outerRadius = get_param_num(argc, params, 2, 0);
auto startAngle = get_param_num(argc, params, 3, 0);
auto endAngle = get_param_num(argc, params, 4, 0);
auto segments = get_param_int(argc, params, 5, 0);
auto color = get_param_color(argc, params, 6);
DrawRing(center, innerRadius, outerRadius, startAngle, endAngle, segments, color);
return 1;
}
//
// Draw ring outline
//
static int cmd_drawringlines(int argc, slib_par_t *params, var_t *retval) {
auto center = get_param_vec2(argc, params, 0);
auto innerRadius = get_param_num(argc, params, 1, 0);
auto outerRadius = get_param_num(argc, params, 2, 0);
auto startAngle = get_param_num(argc, params, 3, 0);
auto endAngle = get_param_num(argc, params, 4, 0);
auto segments = get_param_int(argc, params, 5, 0);
auto color = get_param_color(argc, params, 6);
DrawRingLines(center, innerRadius, outerRadius, startAngle, endAngle, segments, color);
return 1;
}
//
// Draw sphere
//
static int cmd_drawsphere(int argc, slib_par_t *params, var_t *retval) {
auto centerPos = get_param_vec3(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto color = get_param_color(argc, params, 2);
DrawSphere(centerPos, radius, color);
return 1;
}
//
// Draw sphere with extended parameters
//
static int cmd_drawsphereex(int argc, slib_par_t *params, var_t *retval) {
auto centerPos = get_param_vec3(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto rings = get_param_int(argc, params, 2, 0);
auto slices = get_param_int(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawSphereEx(centerPos, radius, rings, slices, color);
return 1;
}
//
// Draw sphere wires
//
static int cmd_drawspherewires(int argc, slib_par_t *params, var_t *retval) {
auto centerPos = get_param_vec3(argc, params, 0);
auto radius = get_param_num(argc, params, 1, 0);
auto rings = get_param_int(argc, params, 2, 0);
auto slices = get_param_int(argc, params, 3, 0);
auto color = get_param_color(argc, params, 4);
DrawSphereWires(centerPos, radius, rings, slices, color);
return 1;
}
//
// Draw spline: B-Spline, minimum 4 points
//
static int cmd_drawsplinebasis(int argc, slib_par_t *params, var_t *retval) {
auto points = (Vector2 *)get_param_vec2_array(argc, params, 0);
auto pointCount = get_param_int(argc, params, 1, 0);
auto thick = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawSplineBasis(points, pointCount, thick, color);
return 1;
}
//
// Draw spline: Cubic Bezier, minimum 4 points (2 control points): [p1, c2, c3, p4, c5, c6...]
//
static int cmd_drawsplinebeziercubic(int argc, slib_par_t *params, var_t *retval) {
auto points = (Vector2 *)get_param_vec2_array(argc, params, 0);
auto pointCount = get_param_int(argc, params, 1, 0);
auto thick = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawSplineBezierCubic(points, pointCount, thick, color);
return 1;
}
//
// Draw spline: Quadratic Bezier, minimum 3 points (1 control point): [p1, c2, p3, c4...]
//
static int cmd_drawsplinebezierquadratic(int argc, slib_par_t *params, var_t *retval) {
auto points = (Vector2 *)get_param_vec2_array(argc, params, 0);
auto pointCount = get_param_int(argc, params, 1, 0);
auto thick = get_param_num(argc, params, 2, 0);
auto color = get_param_color(argc, params, 3);
DrawSplineBezierQuadratic(points, pointCount, thick, color);
return 1;
}
//
// Draw spline: Catmull-Rom, minimum 4 points