164 lines
4.5 KiB
C++
164 lines
4.5 KiB
C++
#include "minimap.h"
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#include <stdio.h>
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#include "maths.h"
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#include "level.h"
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// Camera drawing
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static void drawCamera(sf::RenderTarget* renderTarget, Camera* camera);
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static void drawRays(sf::RenderTarget* renderTarget, Camera* camera);
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static void drawLine(sf::RenderTarget* renderTarget, sf::Vector2f pos, float angle, float length, sf::Color color);
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// Grid drawing
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static void drawGrid(sf::RenderTarget* renderTarget, unsigned int tileSize);
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static void drawGridLine(sf::RenderTarget* renderTarget, float step, bool isHorizontal);
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static sf::Vertex getGridLineVertex(float n, float maxDimension, bool isStart, bool isHorizontal);
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static sf::RenderTexture renderTexture;
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static sf::Vector2f renderTexturePosition;
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static bool init = false;
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static unsigned int minimapSize;
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static unsigned int gridWidth, gridHeight;
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static float drawScale;
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int minimap_init(unsigned int size)
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{
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printf("minimap_init()\n");
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if (!renderTexture.create(size, size)) return 0;
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minimapSize = size;
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level_getDimensions(&gridWidth, &gridHeight);
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drawScale = (float)size/(float)gridWidth;
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init = true;
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return 1;
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}
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void minimap_update(sf::RenderTarget* renderTarget, Camera* camera)
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{
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if (!init) return;
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if (!renderTarget || !camera) return;
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renderTexture.clear();
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drawGrid(&renderTexture, minimapSize/gridWidth);
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drawCamera(&renderTexture, camera);
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renderTexture.display();
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sf::Sprite sprite(renderTexture.getTexture());
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renderTarget->draw(sprite);
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}
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void minimap_setTexturePosition(float x, float y)
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{
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renderTexturePosition.x = x;
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renderTexturePosition.y = y;
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}
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static void drawCamera(sf::RenderTarget* renderTarget, Camera* camera)
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{
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const sf::Vector2f scaledPos = camera->pos * drawScale;
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const float circleRadius = 0.02f * minimapSize;
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sf::CircleShape circle(circleRadius);
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circle.setPosition(scaledPos);
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circle.setOrigin(circleRadius, circleRadius);
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circle.setFillColor(sf::Color::Green);
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drawRays(renderTarget, camera);
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drawLine(renderTarget, scaledPos, camera->direction, minimapSize / 5.f, sf::Color::Red);
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renderTarget->draw(circle);
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}
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static void drawRays(sf::RenderTarget* renderTarget, Camera* camera)
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{
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const sf::Vector2f scaledPos = camera->pos * drawScale;
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for (unsigned int i = 0; i < camera->resolution; i++) {
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CameraRay* ray = &camera->rays[i];
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drawLine(renderTarget, scaledPos, ray->direction, ray->distance * drawScale, sf::Color(150, 150, 100));
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}
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}
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static void drawLine(sf::RenderTarget* renderTarget, sf::Vector2f pos, float angle, float length, sf::Color color)
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{
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if (!renderTarget) return;
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sf::Vector2f endOffset(length * cos(angle), length * sin(angle));
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sf::Vertex start(pos);
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sf::Vertex end(pos + endOffset);
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start.color = color;
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end.color = color;
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sf::Vertex line[] = { start, end };
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renderTarget->draw(line, 2, sf::Lines);
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}
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static void drawGrid(sf::RenderTarget* renderTarget, unsigned int tileSize)
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{
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for (unsigned int x = 0; x < gridWidth; x++) {
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for (unsigned int y = 0; y < gridHeight; y++) {
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unsigned int value = level_getGridValue(x, y);
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if (!value) continue;
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sf::Color color(255, 255, 255);
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switch (value) {
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case 2:
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color = sf::Color::Red;
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break;
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case 3:
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color = sf::Color::Green;
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break;
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case 4:
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color = sf::Color::Blue;
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break;
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};
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sf::RectangleShape rectangle(sf::Vector2f(tileSize, tileSize));
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rectangle.setPosition((float)x * tileSize, (float)y * tileSize);
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rectangle.setFillColor(color);
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renderTarget->draw(rectangle);
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}
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}
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drawGridLine(renderTarget, tileSize, true);
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drawGridLine(renderTarget, tileSize, false);
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}
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static void drawGridLine(sf::RenderTarget* renderTarget, float step, bool isHorizontal)
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{
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unsigned int lines = isHorizontal? gridWidth : gridHeight;
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for (unsigned int n = 0; n < lines; n++) {
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if (n == 0) continue;
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float offset = (float)n * step;
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float maxDimension = (float)lines * step;
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sf::Vertex line[] =
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{
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getGridLineVertex(offset, maxDimension, true, isHorizontal),
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getGridLineVertex(offset, maxDimension, false, isHorizontal)
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};
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renderTarget->draw(line, 2, sf::Lines);
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}
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}
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static sf::Vertex getGridLineVertex(float offset, float maxDimension, bool isStart, bool isHorizontal)
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{
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sf::Vertex start;
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sf::Vertex end;
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if (isHorizontal) {
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start = sf::Vertex(sf::Vector2f(offset, 0));
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end = sf::Vertex(sf::Vector2f(offset, maxDimension));
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}
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else {
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start = sf::Vertex(sf::Vector2f(0, offset));
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end = sf::Vertex(sf::Vector2f(maxDimension, offset));
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}
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sf::Color color(100, 100, 100);
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start.color = color;
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end.color = color;
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return isStart? start : end;
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}
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