/********************************************************************************************** * * raylib.shapes - Basic functions to draw 2d Shapes and check collisions * * CONFIGURATION: * * #define SUPPORT_FONT_TEXTURE * Draw rectangle shapes using font texture white character instead of default white texture * Allows drawing rectangles and text with a single draw call, very useful for GUI systems! * * #define SUPPORT_QUADS_DRAW_MODE * Use QUADS instead of TRIANGLES for drawing when possible. * Some lines-based shapes could still use lines * * LICENSE: zlib/libpng * * Copyright (c) 2013-2020 Ramon Santamaria (@raysan5) * * This software is provided "as-is", without any express or implied warranty. In no event * will the authors be held liable for any damages arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, including commercial * applications, and to alter it and redistribute it freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; you must not claim that you * wrote the original software. If you use this software in a product, an acknowledgment * in the product documentation would be appreciated but is not required. * * 2. Altered source versions must be plainly marked as such, and must not be misrepresented * as being the original software. * * 3. This notice may not be removed or altered from any source distribution. * **********************************************************************************************/ #include "raylib.h" // Declares module functions // Check if config flags have been externally provided on compilation line #if !defined(EXTERNAL_CONFIG_FLAGS) #include "config.h" // Defines module configuration flags #endif #include "rlgl.h" // raylib OpenGL abstraction layer to OpenGL 1.1, 2.1, 3.3+ or ES2 #include // Required for: sinf(), asinf(), cosf(), acosf(), sqrtf(), fabsf() //---------------------------------------------------------------------------------- // Defines and Macros //---------------------------------------------------------------------------------- // Nop... //---------------------------------------------------------------------------------- // Types and Structures Definition //---------------------------------------------------------------------------------- // Not here... //---------------------------------------------------------------------------------- // Global Variables Definition //---------------------------------------------------------------------------------- // ... //---------------------------------------------------------------------------------- // Module specific Functions Declaration //---------------------------------------------------------------------------------- static float EaseCubicInOut(float t, float b, float c, float d); // Cubic easing //---------------------------------------------------------------------------------- // Module Functions Definition //---------------------------------------------------------------------------------- // Draw a pixel void DrawPixel(int posX, int posY, Color color) { rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2i(posX, posY); rlVertex2i(posX + 1, posY + 1); rlEnd(); } // Draw a pixel (Vector version) void DrawPixelV(Vector2 position, Color color) { rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(position.x, position.y); rlVertex2f(position.x + 1.0f, position.y + 1.0f); rlEnd(); } // Draw a line void DrawLine(int startPosX, int startPosY, int endPosX, int endPosY, Color color) { rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2i(startPosX, startPosY); rlVertex2i(endPosX, endPosY); rlEnd(); } // Draw a line (Vector version) void DrawLineV(Vector2 startPos, Vector2 endPos, Color color) { rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(startPos.x, startPos.y); rlVertex2f(endPos.x, endPos.y); rlEnd(); } // Draw a line defining thickness void DrawLineEx(Vector2 startPos, Vector2 endPos, float thick, Color color) { if (startPos.x > endPos.x) { Vector2 tempPos = startPos; startPos = endPos; endPos = tempPos; } float dx = endPos.x - startPos.x; float dy = endPos.y - startPos.y; float d = sqrtf(dx*dx + dy*dy); float angle = asinf(dy/d); rlEnableTexture(GetShapesTexture().id); rlPushMatrix(); rlTranslatef((float)startPos.x, (float)startPos.y, 0.0f); rlRotatef(RAD2DEG*angle, 0.0f, 0.0f, 1.0f); rlTranslatef(0, (thick > 1.0f)? -thick/2.0f : -1.0f, 0.0f); rlBegin(RL_QUADS); rlColor4ub(color.r, color.g, color.b, color.a); rlNormal3f(0.0f, 0.0f, 1.0f); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(0.0f, 0.0f); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(0.0f, thick); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(d, thick); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(d, 0.0f); rlEnd(); rlPopMatrix(); rlDisableTexture(); } // Draw line using cubic-bezier curves in-out void DrawLineBezier(Vector2 startPos, Vector2 endPos, float thick, Color color) { #define LINE_DIVISIONS 24 // Bezier line divisions Vector2 previous = startPos; Vector2 current; for (int i = 1; i <= LINE_DIVISIONS; i++) { // Cubic easing in-out // NOTE: Easing is calculated only for y position value current.y = EaseCubicInOut((float)i, startPos.y, endPos.y - startPos.y, (float)LINE_DIVISIONS); current.x = previous.x + (endPos.x - startPos.x)/ (float)LINE_DIVISIONS; DrawLineEx(previous, current, thick, color); previous = current; } } // Draw lines sequence void DrawLineStrip(Vector2 *points, int pointsCount, Color color) { if (pointsCount >= 2) { if (rlCheckBufferLimit(pointsCount)) rlglDraw(); rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); for (int i = 0; i < pointsCount - 1; i++) { rlVertex2f(points[i].x, points[i].y); rlVertex2f(points[i + 1].x, points[i + 1].y); } rlEnd(); } } // Draw a color-filled circle void DrawCircle(int centerX, int centerY, float radius, Color color) { DrawCircleV((Vector2){ (float)centerX, (float)centerY }, radius, color); } // Draw a piece of a circle void DrawCircleSector(Vector2 center, float radius, int startAngle, int endAngle, int segments, Color color) { if (radius <= 0.0f) radius = 0.1f; // Avoid div by zero // Function expects (endAngle > startAngle) if (endAngle < startAngle) { // Swap values int tmp = startAngle; startAngle = endAngle; endAngle = tmp; } if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #define CIRCLE_ERROR_RATE 0.5f // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/radius, 2) - 1); segments = (endAngle - startAngle)*ceilf(2*PI/th)/360; if (segments <= 0) segments = 4; } float stepLength = (float)(endAngle - startAngle)/(float)segments; float angle = startAngle; #if defined(SUPPORT_QUADS_DRAW_MODE) if (rlCheckBufferLimit(4*segments/2)) rlglDraw(); rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); // NOTE: Every QUAD actually represents two segments for (int i = 0; i < segments/2; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength*2))*radius, center.y + cosf(DEG2RAD*(angle + stepLength*2))*radius); angle += (stepLength*2); } // NOTE: In case number of segments is odd, we add one last piece to the cake if (segments%2) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); } rlEnd(); rlDisableTexture(); #else if (rlCheckBufferLimit(3*segments)) rlglDraw(); rlBegin(RL_TRIANGLES); for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x, center.y); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); angle += stepLength; } rlEnd(); #endif } void DrawCircleSectorLines(Vector2 center, float radius, int startAngle, int endAngle, int segments, Color color) { if (radius <= 0.0f) radius = 0.1f; // Avoid div by zero issue // Function expects (endAngle > startAngle) if (endAngle < startAngle) { // Swap values int tmp = startAngle; startAngle = endAngle; endAngle = tmp; } if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #ifndef CIRCLE_ERROR_RATE #define CIRCLE_ERROR_RATE 0.5f #endif // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/radius, 2) - 1); segments = (endAngle - startAngle)*ceilf(2*PI/th)/360; if (segments <= 0) segments = 4; } float stepLength = (float)(endAngle - startAngle)/(float)segments; float angle = startAngle; // Hide the cap lines when the circle is full bool showCapLines = true; int limit = 2*(segments + 2); if ((endAngle - startAngle)%360 == 0) { limit = 2*segments; showCapLines = false; } if (rlCheckBufferLimit(limit)) rlglDraw(); rlBegin(RL_LINES); if (showCapLines) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x, center.y); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); } for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); angle += stepLength; } if (showCapLines) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x, center.y); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); } rlEnd(); } // Draw a gradient-filled circle // NOTE: Gradient goes from center (color1) to border (color2) void DrawCircleGradient(int centerX, int centerY, float radius, Color color1, Color color2) { if (rlCheckBufferLimit(3*36)) rlglDraw(); rlBegin(RL_TRIANGLES); for (int i = 0; i < 360; i += 10) { rlColor4ub(color1.r, color1.g, color1.b, color1.a); rlVertex2f(centerX, centerY); rlColor4ub(color2.r, color2.g, color2.b, color2.a); rlVertex2f(centerX + sinf(DEG2RAD*i)*radius, centerY + cosf(DEG2RAD*i)*radius); rlColor4ub(color2.r, color2.g, color2.b, color2.a); rlVertex2f(centerX + sinf(DEG2RAD*(i + 10))*radius, centerY + cosf(DEG2RAD*(i + 10))*radius); } rlEnd(); } // Draw a color-filled circle (Vector version) // NOTE: On OpenGL 3.3 and ES2 we use QUADS to avoid drawing order issues (view rlglDraw) void DrawCircleV(Vector2 center, float radius, Color color) { DrawCircleSector(center, radius, 0, 360, 36, color); } // Draw circle outline void DrawCircleLines(int centerX, int centerY, float radius, Color color) { if (rlCheckBufferLimit(2*36)) rlglDraw(); rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); // NOTE: Circle outline is drawn pixel by pixel every degree (0 to 360) for (int i = 0; i < 360; i += 10) { rlVertex2f(centerX + sinf(DEG2RAD*i)*radius, centerY + cosf(DEG2RAD*i)*radius); rlVertex2f(centerX + sinf(DEG2RAD*(i + 10))*radius, centerY + cosf(DEG2RAD*(i + 10))*radius); } rlEnd(); } // Draw ellipse void DrawEllipse(int centerX, int centerY, float radiusH, float radiusV, Color color) { if (rlCheckBufferLimit(3*36)) rlglDraw(); rlBegin(RL_TRIANGLES); for (int i = 0; i < 360; i += 10) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(centerX, centerY); rlVertex2f(centerX + sinf(DEG2RAD*i)*radiusH, centerY + cosf(DEG2RAD*i)*radiusV); rlVertex2f(centerX + sinf(DEG2RAD*(i + 10))*radiusH, centerY + cosf(DEG2RAD*(i + 10))*radiusV); } rlEnd(); } // Draw ellipse outline void DrawEllipseLines(int centerX, int centerY, float radiusH, float radiusV, Color color) { if (rlCheckBufferLimit(2*36)) rlglDraw(); rlBegin(RL_LINES); for (int i = 0; i < 360; i += 10) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(centerX + sinf(DEG2RAD*i)*radiusH, centerY + cosf(DEG2RAD*i)*radiusV); rlVertex2f(centerX + sinf(DEG2RAD*(i + 10))*radiusH, centerY + cosf(DEG2RAD*(i + 10))*radiusV); } rlEnd(); } void DrawRing(Vector2 center, float innerRadius, float outerRadius, int startAngle, int endAngle, int segments, Color color) { if (startAngle == endAngle) return; // Function expects (outerRadius > innerRadius) if (outerRadius < innerRadius) { float tmp = outerRadius; outerRadius = innerRadius; innerRadius = tmp; if (outerRadius <= 0.0f) outerRadius = 0.1f; } // Function expects (endAngle > startAngle) if (endAngle < startAngle) { // Swap values int tmp = startAngle; startAngle = endAngle; endAngle = tmp; } if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #ifndef CIRCLE_ERROR_RATE #define CIRCLE_ERROR_RATE 0.5f #endif // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/outerRadius, 2) - 1); segments = (endAngle - startAngle)*ceilf(2*PI/th)/360; if (segments <= 0) segments = 4; } // Not a ring if (innerRadius <= 0.0f) { DrawCircleSector(center, outerRadius, startAngle, endAngle, segments, color); return; } float stepLength = (float)(endAngle - startAngle)/(float)segments; float angle = startAngle; #if defined(SUPPORT_QUADS_DRAW_MODE) if (rlCheckBufferLimit(4*segments)) rlglDraw(); rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); angle += stepLength; } rlEnd(); rlDisableTexture(); #else if (rlCheckBufferLimit(6*segments)) rlglDraw(); rlBegin(RL_TRIANGLES); for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); angle += stepLength; } rlEnd(); #endif } void DrawRingLines(Vector2 center, float innerRadius, float outerRadius, int startAngle, int endAngle, int segments, Color color) { if (startAngle == endAngle) return; // Function expects (outerRadius > innerRadius) if (outerRadius < innerRadius) { float tmp = outerRadius; outerRadius = innerRadius; innerRadius = tmp; if (outerRadius <= 0.0f) outerRadius = 0.1f; } // Function expects (endAngle > startAngle) if (endAngle < startAngle) { // Swap values int tmp = startAngle; startAngle = endAngle; endAngle = tmp; } if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #ifndef CIRCLE_ERROR_RATE #define CIRCLE_ERROR_RATE 0.5f #endif // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/outerRadius, 2) - 1); segments = (endAngle - startAngle)*ceilf(2*PI/th)/360; if (segments <= 0) segments = 4; } if (innerRadius <= 0.0f) { DrawCircleSectorLines(center, outerRadius, startAngle, endAngle, segments, color); return; } float stepLength = (float)(endAngle - startAngle)/(float)segments; float angle = startAngle; bool showCapLines = true; int limit = 4*(segments + 1); if ((endAngle - startAngle)%360 == 0) { limit = 4*segments; showCapLines = false; } if (rlCheckBufferLimit(limit)) rlglDraw(); rlBegin(RL_LINES); if (showCapLines) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); } for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); angle += stepLength; } if (showCapLines) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); } rlEnd(); } // Draw a color-filled rectangle void DrawRectangle(int posX, int posY, int width, int height, Color color) { DrawRectangleV((Vector2){ (float)posX, (float)posY }, (Vector2){ (float)width, (float)height }, color); } // Draw a color-filled rectangle (Vector version) // NOTE: On OpenGL 3.3 and ES2 we use QUADS to avoid drawing order issues (view rlglDraw) void DrawRectangleV(Vector2 position, Vector2 size, Color color) { DrawRectanglePro((Rectangle){ position.x, position.y, size.x, size.y }, (Vector2){ 0.0f, 0.0f }, 0.0f, color); } // Draw a color-filled rectangle void DrawRectangleRec(Rectangle rec, Color color) { DrawRectanglePro(rec, (Vector2){ 0.0f, 0.0f }, 0.0f, color); } // Draw a color-filled rectangle with pro parameters void DrawRectanglePro(Rectangle rec, Vector2 origin, float rotation, Color color) { rlEnableTexture(GetShapesTexture().id); rlPushMatrix(); rlTranslatef(rec.x, rec.y, 0.0f); rlRotatef(rotation, 0.0f, 0.0f, 1.0f); rlTranslatef(-origin.x, -origin.y, 0.0f); rlBegin(RL_QUADS); rlNormal3f(0.0f, 0.0f, 1.0f); rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(0.0f, 0.0f); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(0.0f, rec.height); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(rec.width, rec.height); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(rec.width, 0.0f); rlEnd(); rlPopMatrix(); rlDisableTexture(); } // Draw a vertical-gradient-filled rectangle // NOTE: Gradient goes from bottom (color1) to top (color2) void DrawRectangleGradientV(int posX, int posY, int width, int height, Color color1, Color color2) { DrawRectangleGradientEx((Rectangle){ (float)posX, (float)posY, (float)width, (float)height }, color1, color2, color2, color1); } // Draw a horizontal-gradient-filled rectangle // NOTE: Gradient goes from bottom (color1) to top (color2) void DrawRectangleGradientH(int posX, int posY, int width, int height, Color color1, Color color2) { DrawRectangleGradientEx((Rectangle){ (float)posX, (float)posY, (float)width, (float)height }, color1, color1, color2, color2); } // Draw a gradient-filled rectangle // NOTE: Colors refer to corners, starting at top-lef corner and counter-clockwise void DrawRectangleGradientEx(Rectangle rec, Color col1, Color col2, Color col3, Color col4) { rlEnableTexture(GetShapesTexture().id); rlPushMatrix(); rlBegin(RL_QUADS); rlNormal3f(0.0f, 0.0f, 1.0f); // NOTE: Default raylib font character 95 is a white square rlColor4ub(col1.r, col1.g, col1.b, col1.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(rec.x, rec.y); rlColor4ub(col2.r, col2.g, col2.b, col2.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(rec.x, rec.y + rec.height); rlColor4ub(col3.r, col3.g, col3.b, col3.a); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(rec.x + rec.width, rec.y + rec.height); rlColor4ub(col4.r, col4.g, col4.b, col4.a); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(rec.x + rec.width, rec.y); rlEnd(); rlPopMatrix(); rlDisableTexture(); } // Draw rectangle outline // NOTE: On OpenGL 3.3 and ES2 we use QUADS to avoid drawing order issues (view rlglDraw) void DrawRectangleLines(int posX, int posY, int width, int height, Color color) { #if defined(SUPPORT_QUADS_DRAW_MODE) DrawRectangle(posX, posY, width, 1, color); DrawRectangle(posX + width - 1, posY + 1, 1, height - 2, color); DrawRectangle(posX, posY + height - 1, width, 1, color); DrawRectangle(posX, posY + 1, 1, height - 2, color); #else rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2i(posX + 1, posY + 1); rlVertex2i(posX + width, posY + 1); rlVertex2i(posX + width, posY + 1); rlVertex2i(posX + width, posY + height); rlVertex2i(posX + width, posY + height); rlVertex2i(posX + 1, posY + height); rlVertex2i(posX + 1, posY + height); rlVertex2i(posX + 1, posY + 1); rlEnd(); #endif } // Draw rectangle outline with extended parameters void DrawRectangleLinesEx(Rectangle rec, int lineThick, Color color) { if (lineThick > rec.width || lineThick > rec.height) { if (rec.width > rec.height) lineThick = (int)rec.height/2; else if (rec.width < rec.height) lineThick = (int)rec.width/2; } DrawRectangle( (int)rec.x, (int)rec.y, (int)rec.width, lineThick, color); DrawRectangle( (int)(rec.x - lineThick + rec.width), (int)(rec.y + lineThick), lineThick, (int)(rec.height - lineThick*2.0f), color); DrawRectangle( (int)rec.x, (int)(rec.y + rec.height - lineThick), (int)rec.width, lineThick, color); DrawRectangle( (int)rec.x, (int)(rec.y + lineThick), lineThick, (int)(rec.height - lineThick*2), color); } // Draw rectangle with rounded edges void DrawRectangleRounded(Rectangle rec, float roundness, int segments, Color color) { // Not a rounded rectangle if ((roundness <= 0.0f) || (rec.width < 1) || (rec.height < 1 )) { DrawRectangleRec(rec, color); return; } if (roundness >= 1.0f) roundness = 1.0f; // Calculate corner radius float radius = (rec.width > rec.height)? (rec.height*roundness)/2 : (rec.width*roundness)/2; if (radius <= 0.0f) return; // Calculate number of segments to use for the corners if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #ifndef CIRCLE_ERROR_RATE #define CIRCLE_ERROR_RATE 0.5f #endif // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/radius, 2) - 1); segments = ceilf(2*PI/th)/4; if (segments <= 0) segments = 4; } float stepLength = 90.0f/(float)segments; /* Quick sketch to make sense of all of this (there are 9 parts to draw, also mark the 12 points we'll use below) * Not my best attempt at ASCII art, just preted it's rounded rectangle :) * P0 P1 * ____________________ * /| |\ * /1| 2 |3\ *P7 /__|____________________|__\ P2 * | |P8 P9| | * | 8 | 9 | 4 | * | __|____________________|__ | *P6 \ |P11 P10| / P3 * \7| 6 |5/ * \|____________________|/ * P5 P4 */ const Vector2 point[12] = { // coordinates of the 12 points that define the rounded rect (the idea here is to make things easier) {(float)rec.x + radius, rec.y}, {(float)(rec.x + rec.width) - radius, rec.y}, { rec.x + rec.width, (float)rec.y + radius }, // PO, P1, P2 {rec.x + rec.width, (float)(rec.y + rec.height) - radius}, {(float)(rec.x + rec.width) - radius, rec.y + rec.height}, // P3, P4 {(float)rec.x + radius, rec.y + rec.height}, { rec.x, (float)(rec.y + rec.height) - radius}, {rec.x, (float)rec.y + radius}, // P5, P6, P7 {(float)rec.x + radius, (float)rec.y + radius}, {(float)(rec.x + rec.width) - radius, (float)rec.y + radius}, // P8, P9 {(float)(rec.x + rec.width) - radius, (float)(rec.y + rec.height) - radius}, {(float)rec.x + radius, (float)(rec.y + rec.height) - radius} // P10, P11 }; const Vector2 centers[4] = { point[8], point[9], point[10], point[11] }; const float angles[4] = { 180.0f, 90.0f, 0.0f, 270.0f }; #if defined(SUPPORT_QUADS_DRAW_MODE) if (rlCheckBufferLimit(16*segments/2 + 5*4)) rlglDraw(); rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); // Draw all of the 4 corners: [1] Upper Left Corner, [3] Upper Right Corner, [5] Lower Right Corner, [7] Lower Left Corner for (int k = 0; k < 4; ++k) // Hope the compiler is smart enough to unroll this loop { float angle = angles[k]; const Vector2 center = centers[k]; // NOTE: Every QUAD actually represents two segments for (int i = 0; i < segments/2; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength*2))*radius, center.y + cosf(DEG2RAD*(angle + stepLength*2))*radius); angle += (stepLength*2); } // NOTE: In case number of segments is odd, we add one last piece to the cake if (segments%2) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x, center.y); } } // [2] Upper Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[0].x, point[0].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[8].x, point[8].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[9].x, point[9].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[1].x, point[1].y); // [4] Right Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[2].x, point[2].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[9].x, point[9].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[10].x, point[10].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[3].x, point[3].y); // [6] Bottom Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[11].x, point[11].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[5].x, point[5].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[4].x, point[4].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[10].x, point[10].y); // [8] Left Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[7].x, point[7].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[6].x, point[6].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[11].x, point[11].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[8].x, point[8].y); // [9] Middle Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[8].x, point[8].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[11].x, point[11].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[10].x, point[10].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[9].x, point[9].y); rlEnd(); rlDisableTexture(); #else if (rlCheckBufferLimit(12*segments + 5*6)) rlglDraw(); // 4 corners with 3 vertices per segment + 5 rectangles with 6 vertices each rlBegin(RL_TRIANGLES); // Draw all of the 4 corners: [1] Upper Left Corner, [3] Upper Right Corner, [5] Lower Right Corner, [7] Lower Left Corner for (int k = 0; k < 4; ++k) // Hope the compiler is smart enough to unroll this loop { float angle = angles[k]; const Vector2 center = centers[k]; for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x, center.y); rlVertex2f(center.x + sinf(DEG2RAD*angle)*radius, center.y + cosf(DEG2RAD*angle)*radius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*radius, center.y + cosf(DEG2RAD*(angle + stepLength))*radius); angle += stepLength; } } // [2] Upper Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[0].x, point[0].y); rlVertex2f(point[8].x, point[8].y); rlVertex2f(point[9].x, point[9].y); rlVertex2f(point[1].x, point[1].y); rlVertex2f(point[0].x, point[0].y); rlVertex2f(point[9].x, point[9].y); // [4] Right Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[9].x, point[9].y); rlVertex2f(point[10].x, point[10].y); rlVertex2f(point[3].x, point[3].y); rlVertex2f(point[2].x, point[2].y); rlVertex2f(point[9].x, point[9].y); rlVertex2f(point[3].x, point[3].y); // [6] Bottom Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[11].x, point[11].y); rlVertex2f(point[5].x, point[5].y); rlVertex2f(point[4].x, point[4].y); rlVertex2f(point[10].x, point[10].y); rlVertex2f(point[11].x, point[11].y); rlVertex2f(point[4].x, point[4].y); // [8] Left Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[7].x, point[7].y); rlVertex2f(point[6].x, point[6].y); rlVertex2f(point[11].x, point[11].y); rlVertex2f(point[8].x, point[8].y); rlVertex2f(point[7].x, point[7].y); rlVertex2f(point[11].x, point[11].y); // [9] Middle Rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[8].x, point[8].y); rlVertex2f(point[11].x, point[11].y); rlVertex2f(point[10].x, point[10].y); rlVertex2f(point[9].x, point[9].y); rlVertex2f(point[8].x, point[8].y); rlVertex2f(point[10].x, point[10].y); rlEnd(); #endif } // Draw rectangle with rounded edges outline void DrawRectangleRoundedLines(Rectangle rec, float roundness, int segments, int lineThick, Color color) { if (lineThick < 0) lineThick = 0; // Not a rounded rectangle if (roundness <= 0.0f) { DrawRectangleLinesEx((Rectangle){rec.x-lineThick, rec.y-lineThick, rec.width+2*lineThick, rec.height+2*lineThick}, lineThick, color); return; } if (roundness >= 1.0f) roundness = 1.0f; // Calculate corner radius float radius = (rec.width > rec.height)? (rec.height*roundness)/2 : (rec.width*roundness)/2; if (radius <= 0.0f) return; // Calculate number of segments to use for the corners if (segments < 4) { // Calculate how many segments we need to draw a smooth circle, taken from https://stackoverflow.com/a/2244088 #ifndef CIRCLE_ERROR_RATE #define CIRCLE_ERROR_RATE 0.5f #endif // Calculate the maximum angle between segments based on the error rate. float th = acosf(2*powf(1 - CIRCLE_ERROR_RATE/radius, 2) - 1); segments = ceilf(2*PI/th)/2; if (segments <= 0) segments = 4; } float stepLength = 90.0f/(float)segments; const float outerRadius = radius + (float)lineThick, innerRadius = radius; /* Quick sketch to make sense of all of this (mark the 16 + 4(corner centers P16-19) points we'll use below) * Not my best attempt at ASCII art, just preted it's rounded rectangle :) * P0 P1 * ==================== * // P8 P9 \\ * // \\ *P7 // P15 P10 \\ P2 * || *P16 P17* || * || || * || P14 P11 || *P6 \\ *P19 P18* // P3 * \\ // * \\ P13 P12 // * ==================== * P5 P4 */ const Vector2 point[16] = { {(float)rec.x + innerRadius, rec.y - lineThick}, {(float)(rec.x + rec.width) - innerRadius, rec.y - lineThick}, { rec.x + rec.width + lineThick, (float)rec.y + innerRadius }, // PO, P1, P2 {rec.x + rec.width + lineThick, (float)(rec.y + rec.height) - innerRadius}, {(float)(rec.x + rec.width) - innerRadius, rec.y + rec.height + lineThick}, // P3, P4 {(float)rec.x + innerRadius, rec.y + rec.height + lineThick}, { rec.x - lineThick, (float)(rec.y + rec.height) - innerRadius}, {rec.x - lineThick, (float)rec.y + innerRadius}, // P5, P6, P7 {(float)rec.x + innerRadius, rec.y}, {(float)(rec.x + rec.width) - innerRadius, rec.y}, // P8, P9 { rec.x + rec.width, (float)rec.y + innerRadius }, {rec.x + rec.width, (float)(rec.y + rec.height) - innerRadius}, // P10, P11 {(float)(rec.x + rec.width) - innerRadius, rec.y + rec.height}, {(float)rec.x + innerRadius, rec.y + rec.height}, // P12, P13 { rec.x, (float)(rec.y + rec.height) - innerRadius}, {rec.x, (float)rec.y + innerRadius} // P14, P15 }; const Vector2 centers[4] = { {(float)rec.x + innerRadius, (float)rec.y + innerRadius}, {(float)(rec.x + rec.width) - innerRadius, (float)rec.y + innerRadius}, // P16, P17 {(float)(rec.x + rec.width) - innerRadius, (float)(rec.y + rec.height) - innerRadius}, {(float)rec.x + innerRadius, (float)(rec.y + rec.height) - innerRadius} // P18, P19 }; const float angles[4] = { 180.0f, 90.0f, 0.0f, 270.0f }; if (lineThick > 1) { #if defined(SUPPORT_QUADS_DRAW_MODE) if (rlCheckBufferLimit(4*4*segments + 4*4)) rlglDraw(); // 4 corners with 4 vertices for each segment + 4 rectangles with 4 vertices each rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); // Draw all of the 4 corners first: Upper Left Corner, Upper Right Corner, Lower Right Corner, Lower Left Corner for (int k = 0; k < 4; ++k) // Hope the compiler is smart enough to unroll this loop { float angle = angles[k]; const Vector2 center = centers[k]; for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); angle += stepLength; } } // Upper rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[0].x, point[0].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[8].x, point[8].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[9].x, point[9].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[1].x, point[1].y); // Right rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[2].x, point[2].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[10].x, point[10].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[11].x, point[11].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[3].x, point[3].y); // Lower rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[13].x, point[13].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[5].x, point[5].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[4].x, point[4].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[12].x, point[12].y); // Left rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[15].x, point[15].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[7].x, point[7].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(point[6].x, point[6].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(point[14].x, point[14].y); rlEnd(); rlDisableTexture(); #else if (rlCheckBufferLimit(4*6*segments + 4*6)) rlglDraw(); // 4 corners with 6(2*3) vertices for each segment + 4 rectangles with 6 vertices each rlBegin(RL_TRIANGLES); // Draw all of the 4 corners first: Upper Left Corner, Upper Right Corner, Lower Right Corner, Lower Left Corner for (int k = 0; k < 4; ++k) // Hope the compiler is smart enough to unroll this loop { float angle = angles[k]; const Vector2 center = centers[k]; for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*innerRadius, center.y + cosf(DEG2RAD*angle)*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*innerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*innerRadius); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); angle += stepLength; } } // Upper rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[0].x, point[0].y); rlVertex2f(point[8].x, point[8].y); rlVertex2f(point[9].x, point[9].y); rlVertex2f(point[1].x, point[1].y); rlVertex2f(point[0].x, point[0].y); rlVertex2f(point[9].x, point[9].y); // Right rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[10].x, point[10].y); rlVertex2f(point[11].x, point[11].y); rlVertex2f(point[3].x, point[3].y); rlVertex2f(point[2].x, point[2].y); rlVertex2f(point[10].x, point[10].y); rlVertex2f(point[3].x, point[3].y); // Lower rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[13].x, point[13].y); rlVertex2f(point[5].x, point[5].y); rlVertex2f(point[4].x, point[4].y); rlVertex2f(point[12].x, point[12].y); rlVertex2f(point[13].x, point[13].y); rlVertex2f(point[4].x, point[4].y); // Left rectangle rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[7].x, point[7].y); rlVertex2f(point[6].x, point[6].y); rlVertex2f(point[14].x, point[14].y); rlVertex2f(point[15].x, point[15].y); rlVertex2f(point[7].x, point[7].y); rlVertex2f(point[14].x, point[14].y); rlEnd(); #endif } else { // Use LINES to draw the outline if (rlCheckBufferLimit(8*segments + 4*2)) rlglDraw(); // 4 corners with 2 vertices for each segment + 4 rectangles with 2 vertices each rlBegin(RL_LINES); // Draw all of the 4 corners first: Upper Left Corner, Upper Right Corner, Lower Right Corner, Lower Left Corner for (int k = 0; k < 4; ++k) // Hope the compiler is smart enough to unroll this loop { float angle = angles[k]; const Vector2 center = centers[k]; for (int i = 0; i < segments; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(center.x + sinf(DEG2RAD*angle)*outerRadius, center.y + cosf(DEG2RAD*angle)*outerRadius); rlVertex2f(center.x + sinf(DEG2RAD*(angle + stepLength))*outerRadius, center.y + cosf(DEG2RAD*(angle + stepLength))*outerRadius); angle += stepLength; } } // And now the remaining 4 lines for(int i = 0; i < 8; i += 2) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(point[i].x, point[i].y); rlVertex2f(point[i + 1].x, point[i + 1].y); } rlEnd(); } } // Draw a triangle // NOTE: Vertex must be provided in counter-clockwise order void DrawTriangle(Vector2 v1, Vector2 v2, Vector2 v3, Color color) { if (rlCheckBufferLimit(4)) rlglDraw(); #if defined(SUPPORT_QUADS_DRAW_MODE) rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(v1.x, v1.y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(v2.x, v2.y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(v2.x, v2.y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(v3.x, v3.y); rlEnd(); rlDisableTexture(); #else rlBegin(RL_TRIANGLES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(v1.x, v1.y); rlVertex2f(v2.x, v2.y); rlVertex2f(v3.x, v3.y); rlEnd(); #endif } // Draw a triangle using lines // NOTE: Vertex must be provided in counter-clockwise order void DrawTriangleLines(Vector2 v1, Vector2 v2, Vector2 v3, Color color) { if (rlCheckBufferLimit(6)) rlglDraw(); rlBegin(RL_LINES); rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(v1.x, v1.y); rlVertex2f(v2.x, v2.y); rlVertex2f(v2.x, v2.y); rlVertex2f(v3.x, v3.y); rlVertex2f(v3.x, v3.y); rlVertex2f(v1.x, v1.y); rlEnd(); } // Draw a triangle fan defined by points // NOTE: First vertex provided is the center, shared by all triangles void DrawTriangleFan(Vector2 *points, int pointsCount, Color color) { if (pointsCount >= 3) { if (rlCheckBufferLimit((pointsCount - 2)*4)) rlglDraw(); rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); rlColor4ub(color.r, color.g, color.b, color.a); for (int i = 1; i < pointsCount - 1; i++) { rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(points[0].x, points[0].y); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(points[i].x, points[i].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(points[i + 1].x, points[i + 1].y); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(points[i + 1].x, points[i + 1].y); } rlEnd(); rlDisableTexture(); } } // Draw a triangle strip defined by points // NOTE: Every new vertex connects with previous two void DrawTriangleStrip(Vector2 *points, int pointsCount, Color color) { if (pointsCount >= 3) { if (rlCheckBufferLimit(pointsCount)) rlglDraw(); rlBegin(RL_TRIANGLES); rlColor4ub(color.r, color.g, color.b, color.a); for (int i = 2; i < pointsCount; i++) { if ((i%2) == 0) { rlVertex2f(points[i].x, points[i].y); rlVertex2f(points[i - 2].x, points[i - 2].y); rlVertex2f(points[i - 1].x, points[i - 1].y); } else { rlVertex2f(points[i].x, points[i].y); rlVertex2f(points[i - 1].x, points[i - 1].y); rlVertex2f(points[i - 2].x, points[i - 2].y); } } rlEnd(); } } // Draw a regular polygon of n sides (Vector version) void DrawPoly(Vector2 center, int sides, float radius, float rotation, Color color) { if (sides < 3) sides = 3; float centralAngle = 0.0f; if (rlCheckBufferLimit(4*(360/sides))) rlglDraw(); rlPushMatrix(); rlTranslatef(center.x, center.y, 0.0f); rlRotatef(rotation, 0.0f, 0.0f, 1.0f); #if defined(SUPPORT_QUADS_DRAW_MODE) rlEnableTexture(GetShapesTexture().id); rlBegin(RL_QUADS); for (int i = 0; i < sides; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(0, 0); rlTexCoord2f(GetShapesTextureRec().x/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, (GetShapesTextureRec().y + GetShapesTextureRec().height)/GetShapesTexture().height); rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); centralAngle += 360.0f/(float)sides; rlTexCoord2f((GetShapesTextureRec().x + GetShapesTextureRec().width)/GetShapesTexture().width, GetShapesTextureRec().y/GetShapesTexture().height); rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); } rlEnd(); rlDisableTexture(); #else rlBegin(RL_TRIANGLES); for (int i = 0; i < sides; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(0, 0); rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); centralAngle += 360.0f/(float)sides; rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); } rlEnd(); #endif rlPopMatrix(); } // Draw a polygon outline of n sides void DrawPolyLines(Vector2 center, int sides, float radius, float rotation, Color color) { if (sides < 3) sides = 3; float centralAngle = 0.0f; if (rlCheckBufferLimit(3*(360/sides))) rlglDraw(); rlPushMatrix(); rlTranslatef(center.x, center.y, 0.0f); rlRotatef(rotation, 0.0f, 0.0f, 1.0f); rlBegin(RL_LINES); for (int i = 0; i < sides; i++) { rlColor4ub(color.r, color.g, color.b, color.a); rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); centralAngle += 360.0f/(float)sides; rlVertex2f(sinf(DEG2RAD*centralAngle)*radius, cosf(DEG2RAD*centralAngle)*radius); } rlEnd(); rlPopMatrix(); } //---------------------------------------------------------------------------------- // Module Functions Definition - Collision Detection functions //---------------------------------------------------------------------------------- // Check if point is inside rectangle bool CheckCollisionPointRec(Vector2 point, Rectangle rec) { bool collision = false; if ((point.x >= rec.x) && (point.x <= (rec.x + rec.width)) && (point.y >= rec.y) && (point.y <= (rec.y + rec.height))) collision = true; return collision; } // Check if point is inside circle bool CheckCollisionPointCircle(Vector2 point, Vector2 center, float radius) { return CheckCollisionCircles(point, 0, center, radius); } // Check if point is inside a triangle defined by three points (p1, p2, p3) bool CheckCollisionPointTriangle(Vector2 point, Vector2 p1, Vector2 p2, Vector2 p3) { bool collision = false; float alpha = ((p2.y - p3.y)*(point.x - p3.x) + (p3.x - p2.x)*(point.y - p3.y)) / ((p2.y - p3.y)*(p1.x - p3.x) + (p3.x - p2.x)*(p1.y - p3.y)); float beta = ((p3.y - p1.y)*(point.x - p3.x) + (p1.x - p3.x)*(point.y - p3.y)) / ((p2.y - p3.y)*(p1.x - p3.x) + (p3.x - p2.x)*(p1.y - p3.y)); float gamma = 1.0f - alpha - beta; if ((alpha > 0) && (beta > 0) & (gamma > 0)) collision = true; return collision; } // Check collision between two rectangles bool CheckCollisionRecs(Rectangle rec1, Rectangle rec2) { bool collision = false; if ((rec1.x < (rec2.x + rec2.width) && (rec1.x + rec1.width) > rec2.x) && (rec1.y < (rec2.y + rec2.height) && (rec1.y + rec1.height) > rec2.y)) collision = true; return collision; } // Check collision between two circles bool CheckCollisionCircles(Vector2 center1, float radius1, Vector2 center2, float radius2) { bool collision = false; float dx = center2.x - center1.x; // X distance between centers float dy = center2.y - center1.y; // Y distance between centers float distance = sqrtf(dx*dx + dy*dy); // Distance between centers if (distance <= (radius1 + radius2)) collision = true; return collision; } // Check collision between circle and rectangle // NOTE: Reviewed version to take into account corner limit case bool CheckCollisionCircleRec(Vector2 center, float radius, Rectangle rec) { int recCenterX = (int)(rec.x + rec.width/2.0f); int recCenterY = (int)(rec.y + rec.height/2.0f); float dx = fabsf(center.x - (float)recCenterX); float dy = fabsf(center.y - (float)recCenterY); if (dx > (rec.width/2.0f + radius)) { return false; } if (dy > (rec.height/2.0f + radius)) { return false; } if (dx <= (rec.width/2.0f)) { return true; } if (dy <= (rec.height/2.0f)) { return true; } float cornerDistanceSq = (dx - rec.width/2.0f)*(dx - rec.width/2.0f) + (dy - rec.height/2.0f)*(dy - rec.height/2.0f); return (cornerDistanceSq <= (radius*radius)); } // Get collision rectangle for two rectangles collision Rectangle GetCollisionRec(Rectangle rec1, Rectangle rec2) { Rectangle retRec = { 0, 0, 0, 0 }; if (CheckCollisionRecs(rec1, rec2)) { float dxx = fabsf(rec1.x - rec2.x); float dyy = fabsf(rec1.y - rec2.y); if (rec1.x <= rec2.x) { if (rec1.y <= rec2.y) { retRec.x = rec2.x; retRec.y = rec2.y; retRec.width = rec1.width - dxx; retRec.height = rec1.height - dyy; } else { retRec.x = rec2.x; retRec.y = rec1.y; retRec.width = rec1.width - dxx; retRec.height = rec2.height - dyy; } } else { if (rec1.y <= rec2.y) { retRec.x = rec1.x; retRec.y = rec2.y; retRec.width = rec2.width - dxx; retRec.height = rec1.height - dyy; } else { retRec.x = rec1.x; retRec.y = rec1.y; retRec.width = rec2.width - dxx; retRec.height = rec2.height - dyy; } } if (rec1.width > rec2.width) { if (retRec.width >= rec2.width) retRec.width = rec2.width; } else { if (retRec.width >= rec1.width) retRec.width = rec1.width; } if (rec1.height > rec2.height) { if (retRec.height >= rec2.height) retRec.height = rec2.height; } else { if (retRec.height >= rec1.height) retRec.height = rec1.height; } } return retRec; } //---------------------------------------------------------------------------------- // Module specific Functions Definition //---------------------------------------------------------------------------------- // Cubic easing in-out // NOTE: Required for DrawLineBezier() static float EaseCubicInOut(float t, float b, float c, float d) { if ((t /= 0.5f*d) < 1) return 0.5f*c*t*t*t + b; t -= 2; return 0.5f*c*(t*t*t + 2.0f) + b; }