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#include "raylib.h" | ||
#include "rlgl.h" | ||
#include <math.h> | ||
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// Draw rectangle with rounded edges and horizontal gradient, with options to choose side of roundness | ||
void DrawRectangleRoundedGradientH(Rectangle rec, float roundnessLeft, float roundnessRight, int segments, Color left, Color right) | ||
{ | ||
// Neither side is rounded | ||
if ((roundnessLeft <= 0.0f && roundnessRight <= 0.0f) || (rec.width < 1) || (rec.height < 1 )) | ||
{ | ||
DrawRectangleGradientEx(rec, left, left, right, right); | ||
return; | ||
} | ||
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if (roundnessLeft >= 1.0f) roundnessLeft = 1.0f; | ||
if (roundnessRight >= 1.0f) roundnessRight = 1.0f; | ||
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// Calculate corner radius both from right and left | ||
float recSize = rec.width > rec.height ? rec.height : rec.width; | ||
float radiusLeft = (recSize*roundnessLeft)/2; | ||
float radiusRight = (recSize*roundnessRight)/2; | ||
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if (radiusLeft <= 0.0f) radiusLeft = 0.0f; | ||
if (radiusRight <= 0.0f) radiusRight = 0.0f; | ||
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if (radiusRight <= 0.0f && radiusLeft <= 0.0f) return; | ||
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float stepLength = 90.0f/(float)segments; | ||
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/* | ||
Diagram Copied here for reference, original at `DrawRectangleRounded` source code | ||
P0____________________P1 | ||
/| |\ | ||
/1| 2 |3\ | ||
P7 /__|____________________|__\ P2 | ||
| |P8 P9| | | ||
| 8 | 9 | 4 | | ||
| __|____________________|__ | | ||
P6 \ |P11 P10| / P3 | ||
\7| 6 |5/ | ||
\|____________________|/ | ||
P5 P4 | ||
*/ | ||
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// Coordinates of the 12 points also apdated from `DrawRectangleRounded` | ||
const Vector2 point[12] = { | ||
// PO, P1, P2 | ||
{(float)rec.x + radiusLeft, rec.y}, {(float)(rec.x + rec.width) - radiusRight, rec.y}, { rec.x + rec.width, (float)rec.y + radiusRight }, | ||
// P3, P4 | ||
{rec.x + rec.width, (float)(rec.y + rec.height) - radiusRight}, {(float)(rec.x + rec.width) - radiusRight, rec.y + rec.height}, | ||
// P5, P6, P7 | ||
{(float)rec.x + radiusLeft, rec.y + rec.height}, { rec.x, (float)(rec.y + rec.height) - radiusLeft}, {rec.x, (float)rec.y + radiusLeft}, | ||
// P8, P9 | ||
{(float)rec.x + radiusLeft, (float)rec.y + radiusLeft}, {(float)(rec.x + rec.width) - radiusRight, (float)rec.y + radiusRight}, | ||
// P10, P11 | ||
{(float)(rec.x + rec.width) - radiusRight, (float)(rec.y + rec.height) - radiusRight}, {(float)rec.x + radiusLeft, (float)(rec.y + rec.height) - radiusLeft} | ||
}; | ||
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const Vector2 centers[4] = { point[8], point[9], point[10], point[11] }; | ||
const float angles[4] = { 180.0f, 270.0f, 0.0f, 90.0f }; | ||
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#if defined(SUPPORT_QUADS_DRAW_MODE) | ||
rlSetTexture(GetShapesTexture().id); | ||
Rectangle shapeRect = GetShapesTextureRectangle(); | ||
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rlBegin(RL_QUADS); | ||
// Draw all 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) | ||
{ | ||
Color color; | ||
float radius; | ||
if (k == 0) color = left, radius = radiusLeft; // [1] Upper Left Corner | ||
if (k == 1) color = right, radius = radiusRight; // [3] Upper Right Corner | ||
if (k == 2) color = right, radius = radiusRight; // [5] Lower Right Corner | ||
if (k == 3) color = left, radius = radiusLeft; // [7] Lower Left Corner | ||
float angle = angles[k]; | ||
const Vector2 center = centers[k]; | ||
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for (int i = 0; i < segments/2; i++) | ||
{ | ||
rlColor4ub(color.r, color.g, color.b, color.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(center.x, center.y); | ||
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rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(center.x + cosf(DEG2RAD*(angle + stepLength*2))*radius, center.y + sinf(DEG2RAD*(angle + stepLength*2))*radius); | ||
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rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(center.x + cosf(DEG2RAD*(angle + stepLength))*radius, center.y + sinf(DEG2RAD*(angle + stepLength))*radius); | ||
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rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(center.x + cosf(DEG2RAD*angle)*radius, center.y + sinf(DEG2RAD*angle)*radius); | ||
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angle += (stepLength*2); | ||
} | ||
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// End one even segments | ||
if ( segments % 2) | ||
{ | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(center.x, center.y); | ||
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rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(center.x + cosf(DEG2RAD*(angle + stepLength))*radius, center.y + sinf(DEG2RAD*(angle + stepLength))*radius); | ||
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rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(center.x + cosf(DEG2RAD*angle)*radius, center.y + sinf(DEG2RAD*angle)*radius); | ||
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rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(center.x, center.y); | ||
} | ||
} | ||
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// | ||
// Here we use the `Diagram` to guide ourselves to which point receives what color. | ||
// | ||
// By choosing the color correctly associated with a pointe the gradient effect | ||
// will naturally come from OpenGL interpolation. | ||
// | ||
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// [2] Upper Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[0].x, point[0].y); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[8].x, point[8].y); | ||
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rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[9].x, point[9].y); | ||
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rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[1].x, point[1].y); | ||
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// [4] Left Rectangle | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[2].x, point[2].y); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[9].x, point[9].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[10].x, point[10].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[3].x, point[3].y); | ||
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// [6] Bottom Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[11].x, point[11].y); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[5].x, point[5].y); | ||
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rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[4].x, point[4].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[10].x, point[10].y); | ||
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// [8] left Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[7].x, point[7].y); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[6].x, point[6].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[11].x, point[11].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[8].x, point[8].y); | ||
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// [9] Middle Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[8].x, point[8].y); | ||
rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[11].x, point[11].y); | ||
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rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); | ||
rlVertex2f(point[10].x, point[10].y); | ||
rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); | ||
rlVertex2f(point[9].x, point[9].y); | ||
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rlEnd(); | ||
rlSetTexture(0); | ||
#else | ||
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// | ||
// Here we use the `Diagram` to guide ourselves to which point receives what color. | ||
// | ||
// By choosing the color correctly associated with a pointe the gradient effect | ||
// will naturally come from OpenGL interpolation. | ||
// But this time instead of Quad, we think in triangles. | ||
// | ||
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rlBegin(RL_TRIANGLES); | ||
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// 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) | ||
{ | ||
Color color; | ||
float radius; | ||
if (k == 0) color = left, radius = radiusLeft; // [1] Upper Left Corner | ||
if (k == 1) color = right, radius = radiusRight; // [3] Upper Right Corner | ||
if (k == 2) color = right, radius = radiusRight; // [5] Lower Right Corner | ||
if (k == 3) color = left, radius = radiusLeft; // [7] Lower Left Corner | ||
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 + cosf(DEG2RAD*(angle + stepLength))*radius, center.y + sinf(DEG2RAD*(angle + stepLength))*radius); | ||
rlVertex2f(center.x + cosf(DEG2RAD*angle)*radius, center.y + sinf(DEG2RAD*angle)*radius); | ||
angle += stepLength; | ||
} | ||
} | ||
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// [2] Upper Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[0].x, point[0].y); | ||
rlVertex2f(point[8].x, point[8].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[9].x, point[9].y); | ||
rlVertex2f(point[1].x, point[1].y); | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[0].x, point[0].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[9].x, point[9].y); | ||
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// [4] Right Rectangle | ||
rlColor4ub(right.r, right.g, right.b, right.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); | ||
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// [6] Bottom Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[11].x, point[11].y); | ||
rlVertex2f(point[5].x, point[5].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[4].x, point[4].y); | ||
rlVertex2f(point[10].x, point[10].y); | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[11].x, point[11].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[4].x, point[4].y); | ||
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// [8] Left Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.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); | ||
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// [9] Middle Rectangle | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[8].x, point[8].y); | ||
rlVertex2f(point[11].x, point[11].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[10].x, point[10].y); | ||
rlVertex2f(point[9].x, point[9].y); | ||
rlColor4ub(left.r, left.g, left.b, left.a); | ||
rlVertex2f(point[8].x, point[8].y); | ||
rlColor4ub(right.r, right.g, right.b, right.a); | ||
rlVertex2f(point[10].x, point[10].y); | ||
rlEnd(); | ||
#endif | ||
} | ||
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int main(int argc, char *argv[]) { | ||
InitWindow(600, 900, "Rectangle Rounded Gradient"); | ||
double width = 600/2.0, height = 900/6.0; | ||
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while (!WindowShouldClose()) { | ||
BeginDrawing(); | ||
ClearBackground(RAYWHITE); | ||
Rectangle rec = { | ||
GetScreenWidth() / 2.0 - width/2, | ||
GetScreenHeight() / 2.0 - (5)*(height/2), | ||
width, height | ||
}; | ||
DrawRectangleRoundedGradientH(rec, 0.8, 0.8, 36, BLUE, RED); | ||
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rec.y += rec.height + 1; | ||
DrawRectangleRoundedGradientH(rec, 0.5, 1.0, 36, RED, PINK); | ||
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rec.y += rec.height + 1; | ||
DrawRectangleRoundedGradientH(rec, 1.0, 0.5, 36, RED, BLUE); | ||
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rec.y += rec.height + 1; | ||
DrawRectangleRoundedGradientH(rec, 0.0, 1.0, 36, BLUE, BLACK); | ||
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rec.y += rec.height + 1; | ||
DrawRectangleRoundedGradientH(rec, 1.0, 0.0, 36, BLUE, PINK); | ||
EndDrawing(); | ||
} | ||
return 0; | ||
} | ||
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