#include "image.h" Image::Image(unsigned int dimensionX, unsigned int dimensionY, unsigned int maxComposante, PILG_Comp typeComposantes): m_dimensionX(dimensionX), m_dimensionY(dimensionY), m_maxComposante(maxComposante), m_typeComposantes(typeComposantes) { Pixel pixelVide = g_pixelVide(); for (int xT = 0; xT < dimensionX; xT++) { std::vector< Pixel > colonne; for (int yT = 0; yT < dimensionX; yT++) { colonne.push_back(pixelVide); } m_tab.push_back(colonne); } } // Getters unsigned int Image::g_dimensionX() const { return m_dimensionX; } unsigned int Image::g_dimensionY() const { return m_dimensionY; } PILG_Comp Image::g_typeComposantes() const { return m_typeComposantes; } unsigned int Image::g_maxComposante() const { return m_maxComposante; } int Image::g_point(unsigned int x, unsigned int y, Pixel &pixel) const { if (enLimites(x, y)) { pixel = m_tab[x][y]; return 0; } else { return 1; } } // Setters int Image::s_point(unsigned int x, unsigned int y, Pixel pixel) { if (enLimites(x, y) && pixel.typeComposantes == m_typeComposantes && pixel.maxComposante == m_maxComposante && enLimitesComposantes(pixel)) { m_tab[x][y] = pixel; return 0; } else { return 1; } } // Utilitaires Pixel Image::g_pixelVide() const { Pixel pixel; pixel.typeComposantes = m_typeComposantes; pixel.maxComposante = m_maxComposante; switch (pixel.typeComposantes) { case PILG_BIN: pixel.b = false; break; case PILG_NIV: pixel.g = 0; break; case PILG_RVB: pixel.r = 0; pixel.b = 0; pixel.v = 0; break; } return pixel; } bool Image::enLimitesComposantes(Pixel pixel) { switch (pixel.typeComposantes) { case PILG_BIN: return true; break; case PILG_NIV: return (pixel.g <= pixel.maxComposante); break; case PILG_RVB: return (pixel.r <= pixel.maxComposante && pixel.v <= pixel.maxComposante && pixel.b <= pixel.maxComposante); break; default: return false; break; } } bool Image::enLimites(unsigned int x, unsigned int y) const { return (x >= 0 && x < m_dimensionX && y >= 0 && y < m_dimensionY); }